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The FrontalCortex question bank can help you study for the Psychiatry Resident-In-Training Examination (PRITE exam).

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Thumbnail Title Description Date Uploaded By Markup Code
Ganglioneuroblastoma A photomicrograph of a ganglioneuroblastoma, courtesy of the National Cancer Institute. 28/04/2007 @ 9:44 jdmiles _INCLUDE_IMAGE_111_END_INCLUDE_IMAGE_
Venus Radial Botticelli's Venus with sensory distribution of right radial nerve highlighted in green. 11/03/2007 @ 20:50 jdmiles _INCLUDE_IMAGE_91_END_INCLUDE_IMAGE_
Venus Lower Trunk Botticelli's Venus, with the area receiving sensation from the right ulnar nerve, medial cutaneous antebrachial nerve, and medial brachial cutaneous nerve highlighted. 11/03/2007 @ 18:08 jdmiles _INCLUDE_IMAGE_90_END_INCLUDE_IMAGE_
Venus Median Botticelli's Venus, with the median nerve sensory distribution highlighted. 11/03/2007 @ 18:02 jdmiles _INCLUDE_IMAGE_89_END_INCLUDE_IMAGE_
Alexia without Agraphia 01 FLAIR MRI of a stroke resulting in alexia without agraphia. 19/03/2007 @ 9:18 jdmiles _INCLUDE_IMAGE_97_END_INCLUDE_IMAGE_
Gross Brain Highlighting Medial Coronal gross brain slice showing cererbral hemispheres and cerebellar structures. There is a red circle demarking the right medial inferior cerebellar cortex. 06/04/2007 @ 14:14 jdmiles _INCLUDE_IMAGE_99_END_INCLUDE_IMAGE_
Gray812 Gray's Anatomy - Distribution of cutaneous nerves of the upper extremities 13/03/2007 @ 3:20 jdmiles _INCLUDE_IMAGE_94_END_INCLUDE_IMAGE_
Vitruvian RUE Axillary The Vitruvian Man with the sensory distribution of the right axillary nerve highlighted in red. 13/03/2007 @ 3:33 jdmiles _INCLUDE_IMAGE_95_END_INCLUDE_IMAGE_
Ganglioneuroblastoma A photomicrograph of a ganglioneuroblastoma, courtesy of the National Cancer Institute. 28/04/2007 @ 9:46 jdmiles _INCLUDE_IMAGE_112_END_INCLUDE_IMAGE_
Amyloid Plaque NIA A photomicrograph of an amyloid plaque, from the National Institute of Aging 28/04/2007 @ 9:34 jdmiles _INCLUDE_IMAGE_110_END_INCLUDE_IMAGE_
Amyloid Plaque NIA A photomicrograph of an amyloid plaque, from the National Institute of Aging 28/04/2007 @ 9:33 jdmiles _INCLUDE_IMAGE_109_END_INCLUDE_IMAGE_
Amyloid Plaque NIA A photomicrograph of an amyloid plaque, from the National Institute of Aging 28/04/2007 @ 9:31 jdmiles _INCLUDE_IMAGE_108_END_INCLUDE_IMAGE_
Amyloid Plaque NIA A photomicrograph of an amyloid plaque, from the National Institute of Aging 28/04/2007 @ 9:30 jdmiles _INCLUDE_IMAGE_107_END_INCLUDE_IMAGE_
Septo-optic Dysplasia MRI T1 Coronal image of a newborn with septo-optic dysplasia. 24/04/2007 @ 14:34 jdmiles _INCLUDE_IMAGE_106_END_INCLUDE_IMAGE_
Ganglioneuroblastoma A photomicrograph of a ganglioneuroblastoma, courtesy of the National Cancer Institute. 28/04/2007 @ 9:47 jdmiles _INCLUDE_IMAGE_113_END_INCLUDE_IMAGE_
Ganglioneuroblastoma A photomicrograph of a ganglioneuroblastoma, courtesy of the National Cancer Institute. 28/04/2007 @ 9:47 jdmiles _INCLUDE_IMAGE_114_END_INCLUDE_IMAGE_
Lewy Body A photomicrograph of a Lewy body, courtesy of the National Cancer Institute 28/04/2007 @ 9:49 jdmiles _INCLUDE_IMAGE_115_END_INCLUDE_IMAGE_
Lewy body A photomicrograph of a Lewy body, courtesy of the National Cancer Institute 28/04/2007 @ 9:50 jdmiles _INCLUDE_IMAGE_116_END_INCLUDE_IMAGE_
Lewy Body A photomicrograph of a Lewy body, courtesy of the National Cancer Institute 28/04/2007 @ 9:51 jdmiles _INCLUDE_IMAGE_117_END_INCLUDE_IMAGE_
Lewy body A photomicrograph of a Lewy body, courtesy of the National Cancer Institute 28/04/2007 @ 9:51 jdmiles _INCLUDE_IMAGE_118_END_INCLUDE_IMAGE_
Neuroblastoma A photomicrograph of a neuroblastoma, courtesy of the National Cancer Institute 28/04/2007 @ 9:52 jdmiles _INCLUDE_IMAGE_119_END_INCLUDE_IMAGE_
Neuroblastoma A photomicrograph of a neuroblastoma, courtesy of the National Cancer Institute 28/04/2007 @ 9:53 jdmiles _INCLUDE_IMAGE_120_END_INCLUDE_IMAGE_
Neuroblastoma A photomicrograph of a neuroblastoma, courtesy of the National Cancer Institute 28/04/2007 @ 9:53 jdmiles _INCLUDE_IMAGE_121_END_INCLUDE_IMAGE_
Neuroblastoma A photomicrograph of a neuroblastoma, courtesy of the National Cancer Institute 28/04/2007 @ 9:55 jdmiles _INCLUDE_IMAGE_123_END_INCLUDE_IMAGE_
EEG artifacts A normal EEG from an adult showing muscle and eye blink artifacts 28/04/2007 @ 11:35 jdmiles _INCLUDE_IMAGE_124_END_INCLUDE_IMAGE_
EEG alpha coma EEG showing alpha coma 28/04/2007 @ 11:36 jdmiles _INCLUDE_IMAGE_125_END_INCLUDE_IMAGE_
EEG normal with eye movements This is a normal adult EEG. The patient is drowsy. There are slow, roving lateral eye movements. 28/04/2007 @ 11:49 jdmiles _INCLUDE_IMAGE_126_END_INCLUDE_IMAGE_
EEG normal drowsy slow eye movem A normal, adult EEG in the drowsy state. There are slow, roving lateral eye movements. 28/04/2007 @ 12:01 jdmiles _INCLUDE_IMAGE_127_END_INCLUDE_IMAGE_
EEG normal with EKG artifact A normal adult EEG with EKG artifact. 28/04/2007 @ 12:03 jdmiles _INCLUDE_IMAGE_128_END_INCLUDE_IMAGE_
EEG normal with EKG artifact This is a normal adult EEG with EKG artifact. 28/04/2007 @ 12:04 jdmiles _INCLUDE_IMAGE_129_END_INCLUDE_IMAGE_
EEG normal with EKG artifact This is a normal EEG with EKG artifact. Some of the artifacts are circled in red. 28/04/2007 @ 12:06 jdmiles _INCLUDE_IMAGE_130_END_INCLUDE_IMAGE_
EEG FIRDA An EEG from an elderly adult showing FIRDA. 28/04/2007 @ 12:09 jdmiles _INCLUDE_IMAGE_131_END_INCLUDE_IMAGE_
EEG FIRDA An EEG from an elderly adult showing FIRDA. 28/04/2007 @ 12:10 jdmiles _INCLUDE_IMAGE_132_END_INCLUDE_IMAGE_
EEG FIRDA An EEG from an elderly adult showing FIRDA. 28/04/2007 @ 12:10 jdmiles _INCLUDE_IMAGE_133_END_INCLUDE_IMAGE_
EEG FIRDA An EEG from an elderly adult showing FIRDA. 28/04/2007 @ 12:11 jdmiles _INCLUDE_IMAGE_134_END_INCLUDE_IMAGE_
EEG normal tachycardia A normal adult EEG with tachycardia seen on the EKG tracing. 28/04/2007 @ 12:12 jdmiles _INCLUDE_IMAGE_135_END_INCLUDE_IMAGE_
EEG PLEDs right An abnormal EEG showing PLEDs on the right side and diffuse slowing. 28/04/2007 @ 12:13 jdmiles _INCLUDE_IMAGE_136_END_INCLUDE_IMAGE_
EEG normal sleep This is a normal adult EEG showing light sleep. Spindles and POSTs are seen. 28/04/2007 @ 12:15 jdmiles _INCLUDE_IMAGE_137_END_INCLUDE_IMAGE_
AVM Photomicrograph of an AVM. 28/04/2007 @ 13:59 jdmiles _INCLUDE_IMAGE_138_END_INCLUDE_IMAGE_
AVM Photomicrograph of an AVM. 28/04/2007 @ 14:00 jdmiles _INCLUDE_IMAGE_139_END_INCLUDE_IMAGE_
AVM Photomicrograph of an AVM 28/04/2007 @ 14:01 jdmiles _INCLUDE_IMAGE_140_END_INCLUDE_IMAGE_
AVM Photomicrograph of an AVM 28/04/2007 @ 14:02 jdmiles _INCLUDE_IMAGE_141_END_INCLUDE_IMAGE_
Stroke Right PCA MRI diffusion-weighted image showing an acute right PCA infarct. 01/05/2007 @ 20:09 jdmiles _INCLUDE_IMAGE_142_END_INCLUDE_IMAGE_
Schizencephaly MRI This is an MRI of an infant with schizencephaly. 02/05/2007 @ 16:12 jdmiles _INCLUDE_IMAGE_143_END_INCLUDE_IMAGE_
Metachromatic Leukodystrophy MRI This is a T2 MRI of the brain of a person with metachromatic leukodystrophy. 02/05/2007 @ 16:13 jdmiles _INCLUDE_IMAGE_144_END_INCLUDE_IMAGE_
Fasciculus Gracilis C6 MRI A T2 MRI, horizontal sections, showing the C6 segment of spinal cord. Left fasciculus gracilis is highlighted in red. 02/05/2007 @ 18:49 jdmiles _INCLUDE_IMAGE_145_END_INCLUDE_IMAGE_
Adam FNF Parkinson This is an animation of Michelangelo's Adam with a Parkinsonian tremor, doing the finger-nose-finger exam. 03/05/2007 @ 8:38 jdmiles _INCLUDE_IMAGE_146_END_INCLUDE_IMAGE_
Adam FNF Normal This is an animation of Michelangelo's Adam performing the finger-nose-finger exam. The exam is normal. 03/05/2007 @ 8:52 jdmiles _INCLUDE_IMAGE_147_END_INCLUDE_IMAGE_
Adam FNF Intention This is an animation of Michelangelo's Adam with an intention tremor, doing the finger-nose-finger exam. 03/05/2007 @ 8:56 jdmiles _INCLUDE_IMAGE_148_END_INCLUDE_IMAGE_
Adam FNF Essential This is an animation of Michelangelo's Adam with an essential tremor. 03/05/2007 @ 8:58 jdmiles _INCLUDE_IMAGE_149_END_INCLUDE_IMAGE_
Tilt Table POTS Tilt table study showing postural orthostatic tachycardia syndrome (POTS). 29/08/2007 @ 17:10 jdmiles _INCLUDE_IMAGE_150_END_INCLUDE_IMAGE_
Tilt Table Normal Normal tilt table study. 29/08/2007 @ 17:12 jdmiles _INCLUDE_IMAGE_151_END_INCLUDE_IMAGE_
Tilt Table Orthostatic Hypotensi Tilt table study showing orthostatic hypotension. 29/08/2007 @ 17:13 jdmiles _INCLUDE_IMAGE_152_END_INCLUDE_IMAGE_
Tilt Table Syncope Tilt table study showing syncope. 29/08/2007 @ 17:15 jdmiles _INCLUDE_IMAGE_153_END_INCLUDE_IMAGE_
Ring-enhancing Lesion MRI T1 MRI with gadolinium contrast, showing a ring-enhancing lesion in the right FrontalCortex. 09/09/2007 @ 11:58 jdmiles _INCLUDE_IMAGE_154_END_INCLUDE_IMAGE_
Port Wine Velazquez's 1656 portrait of the young Marguerite Therese, with a port wine stain added. 18/09/2007 @ 3:10 jdmiles _INCLUDE_IMAGE_155_END_INCLUDE_IMAGE_
Bilateral Acoustic Neuromas An MRI showing bilateral acoustic neuromas. 21/09/2007 @ 2:57 jdmiles _INCLUDE_IMAGE_156_END_INCLUDE_IMAGE_
Optic Glioma T1 MRI of a person with a left optic glioma. 22/09/2007 @ 8:41 jdmiles _INCLUDE_IMAGE_157_END_INCLUDE_IMAGE_
Wenicke Encephalopathy MRI of a person wtih Wernicke encephalopathy. 22/09/2007 @ 18:44 jdmiles _INCLUDE_IMAGE_158_END_INCLUDE_IMAGE_
3Hz Spike and wave 01

This is an EEG of generalized 3Hz spike and wave discharges.  This image is courtesy of the Wikimedia commons, and is licensed under Creative Commons Attribution ShareAlike 2.0.  For full documentation, please see: http://commons.wikimedia.org/wiki/Image:Spike-waves.png

 02/10/2007 @ 15:43 jdmiles _INCLUDE_IMAGE_159_END_INCLUDE_IMAGE_
Anterior Leukodystrophy MRI T2 T2 MRI showing an anterior leukodystrophy. 03/10/2007 @ 3:57 jdmiles _INCLUDE_IMAGE_160_END_INCLUDE_IMAGE_
EEG slowing in hyperventilation

An EEG of normal slowing during hypeventilation.

 10/10/2007 @ 7:32 jdmiles _INCLUDE_IMAGE_161_END_INCLUDE_IMAGE_
MRI Gad Bolus ACA An MRI Gad Bolus with an arrow pointing to the ACAs 12/10/2007 @ 4:28 jdmiles _INCLUDE_IMAGE_162_END_INCLUDE_IMAGE_
Angiogram jugular vein

Venous stage of an angiogram, with an arrow pointing to the jugular vein.

 12/10/2007 @ 10:40 jdmiles _INCLUDE_IMAGE_163_END_INCLUDE_IMAGE_
Angiogram jugular bulb

Venous stage of an angiogram, with an arrow pointing to the jugular bulb.

 12/10/2007 @ 10:41 jdmiles _INCLUDE_IMAGE_164_END_INCLUDE_IMAGE_
Angiogram sigmoid sinus

Venous stage of an angiogram, with an arrow pointing to the sigmoid sinus.

 12/10/2007 @ 10:41 jdmiles _INCLUDE_IMAGE_165_END_INCLUDE_IMAGE_
Angiogram superior sagittal sinu Venous stage of an angiogram, with an arrow pointing to the superior sagittal sinus. 12/10/2007 @ 10:42 jdmiles _INCLUDE_IMAGE_166_END_INCLUDE_IMAGE_
Angiogram torcula Venous stage of an angiogram, with an arrow pointing to the torcula (confluence of sinuses). 12/10/2007 @ 10:43 jdmiles _INCLUDE_IMAGE_167_END_INCLUDE_IMAGE_
Angiogram transverse sinus Venous stage of an angiogram, with an arrow pointing to the transverse sinus. 12/10/2007 @ 10:44 jdmiles _INCLUDE_IMAGE_168_END_INCLUDE_IMAGE_
Grizzly Bear A photograph of a grizzly bear.  Don't go too close.  You don't want to be mauled by a bear.  Courtesy of Wikimedia Commons.  This image is published under the GNU Free Documentation License. 13/10/2007 @ 3:52 jdmiles _INCLUDE_IMAGE_184_END_INCLUDE_IMAGE_
MRA Gad Bolus Aortic Arch An MRI Gad Bolus with an arrow pointing to the aortic arch. 12/10/2007 @ 10:47 jdmiles _INCLUDE_IMAGE_170_END_INCLUDE_IMAGE_
MRA Gad Bolus Innominate An MRI Gad Bolus with an arrow pointing to the innominate (brachiocephalic) artery. 12/10/2007 @ 10:48 jdmiles _INCLUDE_IMAGE_171_END_INCLUDE_IMAGE_
MRA Gad Bolus Right CCA An MRI Gad Bolus with an arrow pointing to the right common carotid artery. 12/10/2007 @ 10:48 jdmiles _INCLUDE_IMAGE_172_END_INCLUDE_IMAGE_
MRA Gad Bolus Right Vertebral Ar An MRI Gad Bolus with an arrow pointing to the right vertebral artery. 12/10/2007 @ 10:50 jdmiles _INCLUDE_IMAGE_173_END_INCLUDE_IMAGE_
MRA Gad Bolus Left Carotid Bifur An MRI Gad Bolus with an arrow pointing to the left carotid bifurcation. 12/10/2007 @ 10:50 jdmiles _INCLUDE_IMAGE_174_END_INCLUDE_IMAGE_
MRA Gad Bolus Left CCA An MRI Gad Bolus with an arrow pointing to the left common carotid artery. 12/10/2007 @ 10:51 jdmiles _INCLUDE_IMAGE_175_END_INCLUDE_IMAGE_
MRA Gad Bolus Left ECA An MRI Gad Bolus with an arrow pointing to the left external carotid artery. 12/10/2007 @ 10:52 jdmiles _INCLUDE_IMAGE_176_END_INCLUDE_IMAGE_
MRA Gad Bolus Left ICA An MRI Gad Bolus with an arrow pointing to the left internal carotid artery. 12/10/2007 @ 10:53 jdmiles _INCLUDE_IMAGE_177_END_INCLUDE_IMAGE_
MRA Gad Bolus Left MCA An MRI Gad Bolus with an arrow pointing to the M1 segment of the left middle cerebral artery. 12/10/2007 @ 10:54 jdmiles _INCLUDE_IMAGE_178_END_INCLUDE_IMAGE_
MRA Gad Bolus Left Subclavian Ar An MRI Gad Bolus with an arrow pointing to the left subclavian artery. 12/10/2007 @ 10:55 jdmiles _INCLUDE_IMAGE_179_END_INCLUDE_IMAGE_
MRV Internal Cerebral Vein A magnetic resonance venogram, with an arrow pointing to the internal cerebral vein. 12/10/2007 @ 10:56 jdmiles _INCLUDE_IMAGE_180_END_INCLUDE_IMAGE_
MRV SSS

A magnetic resonance venogram, with an arrow pointing to the superior sagittal sinus.

 12/10/2007 @ 10:57 jdmiles _INCLUDE_IMAGE_181_END_INCLUDE_IMAGE_
MRV Straight Sinus

A magnetic resonance venogram, with an arrow pointing to the straight sinus.

 12/10/2007 @ 10:59 jdmiles _INCLUDE_IMAGE_182_END_INCLUDE_IMAGE_
MRV Transverse Sinus

A magnetic resonance venogram, with an arrow pointing to the transverse sinus.

 12/10/2007 @ 10:59 jdmiles _INCLUDE_IMAGE_183_END_INCLUDE_IMAGE_
Angiogram ACA A2 An angiogram with an arrow indicating the A2 segment of the anterior cerebral artery. 13/10/2007 @ 10:15 jdmiles _INCLUDE_IMAGE_185_END_INCLUDE_IMAGE_
Angiogram ICA Cavernous An angiogram with an arrow indicating the cavernous segment of the internal carotid artery. 13/10/2007 @ 10:16 jdmiles _INCLUDE_IMAGE_186_END_INCLUDE_IMAGE_
Angiogram ICA Cervical An angiogram with an arrow indicating the cervical segment of the internal carotid artery. 13/10/2007 @ 10:17 jdmiles _INCLUDE_IMAGE_187_END_INCLUDE_IMAGE_
Angiogram ICA Petrous An angiogram with an arrow indicating the petrous segment of the internal carotid artery. 13/10/2007 @ 10:18 jdmiles _INCLUDE_IMAGE_188_END_INCLUDE_IMAGE_
Angiogram ICA Supraclinoid An angiogram with an arrow indicating the supraclinoid (cerebral) portion of the internal carotid artery. 13/10/2007 @ 10:19 jdmiles _INCLUDE_IMAGE_189_END_INCLUDE_IMAGE_
Angiogram Opthalmic An angiogram with an arrow indicating the ophthalmic artery. 13/10/2007 @ 10:20 jdmiles _INCLUDE_IMAGE_190_END_INCLUDE_IMAGE_
Sacral Dimple A photograph of a sacral dimple.  Courtesy of the Auckland District Health Board.  © Crown copyright [2000-2005] Auckland District Health Board. 13/10/2007 @ 16:46 jdmiles _INCLUDE_IMAGE_191_END_INCLUDE_IMAGE_
Map of Mississippi River Basin A map of the Mississippi River Basin.  Courtesy of the U.S. Environmental Protection Agency. 14/10/2007 @ 11:52 jdmiles _INCLUDE_IMAGE_192_END_INCLUDE_IMAGE_
Map of Ohio River Basin A map of the Ohio river basin.  Courtesy of Wikimedia commons.  This file is licensed under the Creative Commons Attribution ShareAlike 2.5 License. 14/10/2007 @ 11:54 jdmiles _INCLUDE_IMAGE_193_END_INCLUDE_IMAGE_
Map of the San Joaquin Valley A map of the San Joaquin Vallewy.  © 2004 Matthew Trump.  Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled "GNU Free Documentation License". 14/10/2007 @ 11:59 jdmiles _INCLUDE_IMAGE_194_END_INCLUDE_IMAGE_
Angiogram 2 ACA A1 An angiogram with an arrow indicating the A1 segment of the anterior cerebral artery. 16/10/2007 @ 3:41 jdmiles _INCLUDE_IMAGE_195_END_INCLUDE_IMAGE_
Angiogram 2 ACA A2 An angiogram with an arrow indicating the A2 segment of the anterior cerebral artery. 16/10/2007 @ 3:42 jdmiles _INCLUDE_IMAGE_196_END_INCLUDE_IMAGE_
Angiogram 2 ACA ACOM An angiogram with an arrow indicating the anterior communicating artery. 16/10/2007 @ 3:43 jdmiles _INCLUDE_IMAGE_197_END_INCLUDE_IMAGE_
Angiogram 2 ICA Cavernous An angiogram with an arrow indicating the cavenous segment of the internal carotid artery. 16/10/2007 @ 3:44 jdmiles _INCLUDE_IMAGE_198_END_INCLUDE_IMAGE_
Angiogram 2 ICA Supraclinoid An angiogram with an arrow indicating the cerebral (aka supraclinoid) segment of the internal carotid artery. 16/10/2007 @ 3:45 jdmiles _INCLUDE_IMAGE_199_END_INCLUDE_IMAGE_
Angiogram 2 ICA Cervical An angiogram with an arrow indicating the cervical segment of the internal carotid artery. 16/10/2007 @ 3:46 jdmiles _INCLUDE_IMAGE_200_END_INCLUDE_IMAGE_
Angiogram 2 ICA Petrous An angiogram with an arrow indicating the petrous segment of the internal carotid artery. 16/10/2007 @ 3:47 jdmiles _INCLUDE_IMAGE_201_END_INCLUDE_IMAGE_
Angiogram 2 MCA M1 An angiogram with an arrow indicating the M1 segment of the middle cerebral artery, proximal to the bifurcation. 16/10/2007 @ 3:48 jdmiles _INCLUDE_IMAGE_202_END_INCLUDE_IMAGE_
Angiogram 2 MCA M1 again An angiogram with an arrow indicating the M1 segment of the middle cerebral artery, distal to the bifurcation. 16/10/2007 @ 3:49 jdmiles _INCLUDE_IMAGE_203_END_INCLUDE_IMAGE_
EEG CJD EEG of a periodic pattern seen in CJD 17/10/2007 @ 4:00 jdmiles _INCLUDE_IMAGE_204_END_INCLUDE_IMAGE_
EEG Normal with Mu A normal EEG with a nice example of a Mu rhythm 17/10/2007 @ 4:01 jdmiles _INCLUDE_IMAGE_205_END_INCLUDE_IMAGE_
MRI T2 Encephalitis A T2 MRI of a patient with viral encephalitis.  There is hyperintensity in the right temporal region. 17/10/2007 @ 4:02 jdmiles _INCLUDE_IMAGE_206_END_INCLUDE_IMAGE_
Cerebellum Neonate EGCL H&E Stain of neonatal cerebellum, showing the external granular cell layer (EGCL). 24/11/2007 @ 7:55 jdmiles _INCLUDE_IMAGE_207_END_INCLUDE_IMAGE_
Cerebellum Neonate EGCL 2 H&E Stain of neonatal cerebellum, showing external granule cell layer (EGCL). 24/11/2007 @ 7:57 jdmiles _INCLUDE_IMAGE_208_END_INCLUDE_IMAGE_
Cerebellum Neonate GCL H&E photomicrograph of neonatal cerebellum, showing the granule cell layer. 24/11/2007 @ 7:59 jdmiles _INCLUDE_IMAGE_209_END_INCLUDE_IMAGE_
Cerebellum Neonate ML H&E stain of neonatal cerebellum, showing the molecular layer. 24/11/2007 @ 7:59 jdmiles _INCLUDE_IMAGE_210_END_INCLUDE_IMAGE_
Cerebellum Neonatal ML 2 H&E photomicrograph of neonatal cerebellum, showing the molecular layer.
 24/11/2007 @ 8:00 jdmiles _INCLUDE_IMAGE_211_END_INCLUDE_IMAGE_
Cerebellum Neonate PCL H&E stain of neonatal cerebellum, showing the Purkinje cell layer.
 24/11/2007 @ 8:01 jdmiles _INCLUDE_IMAGE_212_END_INCLUDE_IMAGE_
Cerebellum Neonate H&E stain of neonatal cerebellum.  Appx. 200x magnification.
 24/11/2007 @ 8:02 jdmiles _INCLUDE_IMAGE_213_END_INCLUDE_IMAGE_
Cerebellum Neonate Purkinje Cell H&E stain of neonate cerebellum, with an arrow pointing to a Purkinje cell. 25/11/2007 @ 4:15 jdmiles _INCLUDE_IMAGE_214_END_INCLUDE_IMAGE_
Substantia nigra H&E stain of substantia nigra, appx. 200X 27/11/2007 @ 3:02 jdmiles _INCLUDE_IMAGE_215_END_INCLUDE_IMAGE_
Substantia nigra neuromelanin H&E preparation of substantia nigra, with 3 big red arrows indicating pigmented neurons. 27/11/2007 @ 3:04 jdmiles _INCLUDE_IMAGE_216_END_INCLUDE_IMAGE_
Substantia nigra Virchow Robin A photomicrograph (appx. 200x) of substantia nigra, with a big red arrow showing a Virchow-Robin space. 27/11/2007 @ 3:06 jdmiles _INCLUDE_IMAGE_217_END_INCLUDE_IMAGE_
Subarachnoid Hemorrhage A CT showing a subarachnoid hemorrhage.  Courtesy of Wikimedia Commons.  This file is licensed under the Creative Commons Attribution ShareAlike license versions 2.5, 2.0, and 1.0 28/11/2007 @ 14:12 jdmiles _INCLUDE_IMAGE_218_END_INCLUDE_IMAGE_
Capillary Telangiectases H&E prep showing a capillary telangiectasia. 28/11/2007 @ 15:47 jdmiles _INCLUDE_IMAGE_219_END_INCLUDE_IMAGE_
EM IBM Electron photomicrograph of skeletal muscle, showing inclusions characteristic of inclusion body myositis. 29/11/2007 @ 7:27 jdmiles _INCLUDE_IMAGE_220_END_INCLUDE_IMAGE_
Cavernous Angioma H&E photomicrograph of a cavernous angioma. 29/11/2007 @ 9:52 jdmiles _INCLUDE_IMAGE_221_END_INCLUDE_IMAGE_
Cavernous Angioma 2 H&E prep of a cavernous angioma 29/11/2007 @ 9:53 jdmiles _INCLUDE_IMAGE_222_END_INCLUDE_IMAGE_
Amyloid plaques and angiopathy This is a photomicrograph with immunohistochemical staining for beta amyloid. It shows 3 amyloid plaques, and amyloid in the media of the artery. 07/12/2007 @ 2:42 jdmiles _INCLUDE_IMAGE_223_END_INCLUDE_IMAGE_
Amyloid Plaques This is a beta amyloid immunostain showing numerous amyloid plaques. 07/12/2007 @ 2:50 jdmiles _INCLUDE_IMAGE_224_END_INCLUDE_IMAGE_
Rosenthal Fibers This is an H&E slide showing Rosenthal Fibers. 08/12/2007 @ 13:29 jdmiles _INCLUDE_IMAGE_225_END_INCLUDE_IMAGE_
GBM 01 This image shows an H&E photomicrograph of a GBM, with pseudopallisading and necrosis. 08/12/2007 @ 13:46 jdmiles _INCLUDE_IMAGE_226_END_INCLUDE_IMAGE_
GBM 02 This image shows an H&E photomicrograph of a GBM, with pseudopallisading and necrosis. 08/12/2007 @ 13:47 jdmiles _INCLUDE_IMAGE_227_END_INCLUDE_IMAGE_
Muscle Cytochrome Oxidase This is a cytochrome oxidase c stain of a skeletal muscle biopsy. This muscle is affected by a mitochondrial myopathy, but this slide is not diagnostic of that. I 'm using this as an example of type I and type II fibers. 20/12/2007 @ 2:17 jdmiles _INCLUDE_IMAGE_228_END_INCLUDE_IMAGE_
Nemaline Gomori trichrome stain showing nemaline rod myopathy. 23/12/2007 @ 19:15 jdmiles _INCLUDE_IMAGE_229_END_INCLUDE_IMAGE_
Skull Base Foramina Illustration from Gray's anatomy of the skull foramina. 09/02/2008 @ 13:48 jdmiles _INCLUDE_IMAGE_230_END_INCLUDE_IMAGE_
SEGA micro H&E stain of a subependymal giant cell astrocytoma (SEGA). 24/02/2008 @ 11:15 jdmiles _INCLUDE_IMAGE_231_END_INCLUDE_IMAGE_
BECTS An EEG showing right centrotemporal spikes, which are characteristic of benign centrotemporal epilepsy of childhood (BECTS). 07/03/2008 @ 2:31 jdmiles _INCLUDE_IMAGE_232_END_INCLUDE_IMAGE_
Pes Cavus Photograph of a pes cavus deformity. The foot of a person diagnosed with CMT-1A. Courtesy of Wikimedia commons. GNU Free Documentation License, Version 1.2 20/03/2008 @ 1:36 jdmiles _INCLUDE_IMAGE_233_END_INCLUDE_IMAGE_
Chiari on Sagittal MRI A sagittal MRI showing a Chiari malformation. 07/05/2008 @ 2:05 jdmiles _INCLUDE_IMAGE_234_END_INCLUDE_IMAGE_
Gray - Nerves of upper extremity This is a drawing from Gray's anatomy, illustrating the nerves of the left upper extremity. 31/07/2008 @ 5:58 jdmiles _INCLUDE_IMAGE_235_END_INCLUDE_IMAGE_
Pronator teres This image is an illustration of the pronator teres muscle of the left upper extremity. This is a modification of an illustration from Gray's anatomy. Thanks to Wikipedia for providing this public domain image. 31/07/2008 @ 6:00 jdmiles _INCLUDE_IMAGE_236_END_INCLUDE_IMAGE_
Cerebellar Sclerosis Loss of neuronal populations is reflected in narrowing of the folial white matter, which appears to be most severe in the arterial border zone areas. 30/04/2008 @ 9:07 gliageek _INCLUDE_IMAGE_237_END_INCLUDE_IMAGE_
Bilateral hemorrhagic infarcts, Severe systemic hypotension results in infarction within end-artery circulations. Restoration of perfusion eventuates into hemorrhagic transformation of the end artery infarcts. 30/04/2008 @ 9:11 gliageek _INCLUDE_IMAGE_238_END_INCLUDE_IMAGE_
Laminar Necrosis, internal carot   30/04/2008 @ 9:12 gliageek _INCLUDE_IMAGE_239_END_INCLUDE_IMAGE_
Laminar necrosis of cerebral rib   30/04/2008 @ 9:14 gliageek _INCLUDE_IMAGE_240_END_INCLUDE_IMAGE_
Ammons Horn Sclerosis jdm-we should moves this to an epilepsy folder thanks 30/04/2008 @ 9:15 gliageek _INCLUDE_IMAGE_241_END_INCLUDE_IMAGE_
Arterial Border Zone Infarcts, u Unilateral distribution of hemorrhagic infarcts secondary to severe systemic hypotension superimposed on impaired left-sided cerebral circulation. it might be a good idea to ditch this picture, and imagine that the next was actually bilateral 30/04/2008 @ 9:19 gliageek _INCLUDE_IMAGE_242_END_INCLUDE_IMAGE_
Arterial Border Zone Infarcts   30/04/2008 @ 9:18 gliageek _INCLUDE_IMAGE_243_END_INCLUDE_IMAGE_
Arterial border zone infarcts be   30/04/2008 @ 9:20 gliageek _INCLUDE_IMAGE_244_END_INCLUDE_IMAGE_
Arterial border zone infarcts wi   30/04/2008 @ 9:21 gliageek _INCLUDE_IMAGE_245_END_INCLUDE_IMAGE_
Organizing infarcts (approx   30/04/2008 @ 9:22 gliageek _INCLUDE_IMAGE_246_END_INCLUDE_IMAGE_
Recent hemorrhagic infarct, righ   30/04/2008 @ 9:23 gliageek _INCLUDE_IMAGE_247_END_INCLUDE_IMAGE_
Unilateral thalamic infarct   30/04/2008 @ 9:24 gliageek _INCLUDE_IMAGE_248_END_INCLUDE_IMAGE_
Organizing infarct, anterior cer   30/04/2008 @ 9:25 gliageek _INCLUDE_IMAGE_249_END_INCLUDE_IMAGE_
Basilar artery thrombosis   01/05/2008 @ 3:46 jdmiles _INCLUDE_IMAGE_250_END_INCLUDE_IMAGE_
Bilateral pallidal necrosis with Though bilateral necrosis of the globus pallidus has been classically associated with carbon monoxide intoxication, identical pathologic changes can be seen in patients surviving severe systemic hypotension. 30/04/2008 @ 9:28 gliageek _INCLUDE_IMAGE_251_END_INCLUDE_IMAGE_
Hemorrhagic necrosis, posterior   30/04/2008 @ 9:30 gliageek _INCLUDE_IMAGE_252_END_INCLUDE_IMAGE_
Carotid artery thrombus Thrombotic vascular occlusion classically supervenes upon severe atherosclerosis, most commonly involving extracranial arteries 30/04/2008 @ 9:32 gliageek _INCLUDE_IMAGE_253_END_INCLUDE_IMAGE_
Cavitating infarcts within middl   30/04/2008 @ 9:33 gliageek _INCLUDE_IMAGE_254_END_INCLUDE_IMAGE_
Thromboembolic occlusion, cerebe   30/04/2008 @ 9:34 gliageek _INCLUDE_IMAGE_255_END_INCLUDE_IMAGE_
Recent infarct, dorsal medulla Classically associated with Wallenberg syndrome 30/04/2008 @ 9:35 gliageek _INCLUDE_IMAGE_256_END_INCLUDE_IMAGE_
Dorsal medullary infarct without   30/04/2008 @ 9:36 gliageek _INCLUDE_IMAGE_257_END_INCLUDE_IMAGE_
Innumerable pericapillary hemorr   01/05/2008 @ 3:47 jdmiles _INCLUDE_IMAGE_258_END_INCLUDE_IMAGE_
Organizing infarct, middle cereb Secondary to compression of anterior cerebral artery against falx followed by released upon resolution of infarct associated cytotoxic and vasogenic edema. 30/04/2008 @ 9:39 gliageek _INCLUDE_IMAGE_259_END_INCLUDE_IMAGE_
Cavitated infarct, posterior mid   30/04/2008 @ 9:40 gliageek _INCLUDE_IMAGE_260_END_INCLUDE_IMAGE_
Organizing cerebellar necrosis,   30/04/2008 @ 9:41 gliageek _INCLUDE_IMAGE_261_END_INCLUDE_IMAGE_
Organizing infarct, left posteri Patient believed to be suffering from Alzheimer's disease. No evidence of Alzheimer's disease at autopsy. Infarct probably resulted in Wernicke aphasia. 30/04/2008 @ 9:43 gliageek _INCLUDE_IMAGE_262_END_INCLUDE_IMAGE_
Organizing MCA infarct, sagittal   01/05/2008 @ 2:52 jdmiles _INCLUDE_IMAGE_263_END_INCLUDE_IMAGE_
Posterior cerebral artery distri Bilirubin staining of the infarcted territory demonstrates blood-brain barrier breakdown 01/05/2008 @ 5:26 gliageek _INCLUDE_IMAGE_264_END_INCLUDE_IMAGE_
Right posterior inferior cerebel   01/05/2008 @ 5:27 gliageek _INCLUDE_IMAGE_265_END_INCLUDE_IMAGE_
Right posterior inferior cerebel   01/05/2008 @ 5:28 gliageek _INCLUDE_IMAGE_266_END_INCLUDE_IMAGE_
Recent and cavitated lacunar inf   01/05/2008 @ 5:28 gliageek _INCLUDE_IMAGE_267_END_INCLUDE_IMAGE_
Whole Mount section of recent MC   01/05/2008 @ 5:29 gliageek _INCLUDE_IMAGE_268_END_INCLUDE_IMAGE_
Middle cerebral artery distribut Note involvement of the caudate nucleus with sparing of the thalamus 01/05/2008 @ 5:34 gliageek _INCLUDE_IMAGE_269_END_INCLUDE_IMAGE_
Dorsolateral medullary infarct Pathologic correlate of Wallenberg syndrome 01/05/2008 @ 5:35 gliageek _INCLUDE_IMAGE_270_END_INCLUDE_IMAGE_
Dorsolateral medullary infarct,   01/05/2008 @ 5:36 gliageek _INCLUDE_IMAGE_271_END_INCLUDE_IMAGE_
Dorsolateral medullary infarct,   01/05/2008 @ 5:37 gliageek _INCLUDE_IMAGE_272_END_INCLUDE_IMAGE_
Primary pontine hemorrhage in a   01/05/2008 @ 5:39 gliageek _INCLUDE_IMAGE_273_END_INCLUDE_IMAGE_
Primary pontine hemorrhage in a same as last picture (not as close-up). 01/05/2008 @ 5:40 gliageek _INCLUDE_IMAGE_274_END_INCLUDE_IMAGE_
Lobar hemorrhages secondary to a   01/05/2008 @ 5:41 gliageek _INCLUDE_IMAGE_275_END_INCLUDE_IMAGE_
Hypertensive putaminal hemorrhag   01/05/2008 @ 5:42 gliageek _INCLUDE_IMAGE_276_END_INCLUDE_IMAGE_
Contained hypertensive putaminal   08/05/2008 @ 19:21 jdmiles _INCLUDE_IMAGE_277_END_INCLUDE_IMAGE_
Hypertensive pontine hemorrhage   01/05/2008 @ 5:44 gliageek _INCLUDE_IMAGE_278_END_INCLUDE_IMAGE_
Hypertensive cerebellar hemorrha   01/05/2008 @ 5:44 gliageek _INCLUDE_IMAGE_279_END_INCLUDE_IMAGE_
Intramedullary hemorrhage in a p   08/05/2008 @ 19:19 jdmiles _INCLUDE_IMAGE_280_END_INCLUDE_IMAGE_
Intramedullary hemorrhage in a p   08/05/2008 @ 19:16 jdmiles _INCLUDE_IMAGE_281_END_INCLUDE_IMAGE_
Intramedullary hemorrhage in a p   01/05/2008 @ 5:48 gliageek _INCLUDE_IMAGE_282_END_INCLUDE_IMAGE_
Hypertensive hemorrhage with rup   08/05/2008 @ 19:14 jdmiles _INCLUDE_IMAGE_283_END_INCLUDE_IMAGE_
Petechial intramedullary hemorrh   01/05/2008 @ 5:50 gliageek _INCLUDE_IMAGE_284_END_INCLUDE_IMAGE_
Lobar hemorrhage secondary to ru   01/05/2008 @ 5:50 gliageek _INCLUDE_IMAGE_285_END_INCLUDE_IMAGE_
Organized putaminal hemorrhage   08/05/2008 @ 19:09 jdmiles _INCLUDE_IMAGE_286_END_INCLUDE_IMAGE_
Cavitating middle cerebral arter   01/05/2008 @ 5:52 gliageek _INCLUDE_IMAGE_287_END_INCLUDE_IMAGE_
Hemorrhagic pineal cyst   08/05/2008 @ 19:09 jdmiles _INCLUDE_IMAGE_288_END_INCLUDE_IMAGE_
Hypertensive pontine hemorrhage,   01/05/2008 @ 5:53 gliageek _INCLUDE_IMAGE_289_END_INCLUDE_IMAGE_
Hypertensive pontine hemorrhage   01/05/2008 @ 5:54 gliageek _INCLUDE_IMAGE_290_END_INCLUDE_IMAGE_
Hypertensive thalamic hemorrhage   01/05/2008 @ 5:54 gliageek _INCLUDE_IMAGE_291_END_INCLUDE_IMAGE_
Axonal injury, beta amyloid prec   01/05/2008 @ 5:55 gliageek _INCLUDE_IMAGE_292_END_INCLUDE_IMAGE_
BilAmyGHemA92_80   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_293_END_INCLUDE_IMAGE_
Binswanger's subcortical ar ?move to degenerative folder? 01/05/2008 @ 5:57 gliageek _INCLUDE_IMAGE_294_END_INCLUDE_IMAGE_
Circle of Willis   01/05/2008 @ 5:58 gliageek _INCLUDE_IMAGE_295_END_INCLUDE_IMAGE_
Etat crible   01/05/2008 @ 5:58 gliageek _INCLUDE_IMAGE_296_END_INCLUDE_IMAGE_
Fibromuscular dysplasia involvin   06/05/2008 @ 4:22 jdmiles _INCLUDE_IMAGE_297_END_INCLUDE_IMAGE_
Primary (granulomatous)   01/05/2008 @ 5:59 gliageek _INCLUDE_IMAGE_298_END_INCLUDE_IMAGE_
Granular atrophy of the cerebral   01/05/2008 @ 6:00 gliageek _INCLUDE_IMAGE_299_END_INCLUDE_IMAGE_
Diffuse cerebral edema in a pati   01/05/2008 @ 6:00 gliageek _INCLUDE_IMAGE_300_END_INCLUDE_IMAGE_
Juvenile temporal arteritis with   01/05/2008 @ 6:01 gliageek _INCLUDE_IMAGE_301_END_INCLUDE_IMAGE_
lPACNSmvhp consider replacing this photo 01/05/2008 @ 6:03 gliageek _INCLUDE_IMAGE_302_END_INCLUDE_IMAGE_
Malignant cerebral edema seconda   01/05/2008 @ 6:03 gliageek _INCLUDE_IMAGE_303_END_INCLUDE_IMAGE_
Granulomatous angiitis of the ce   01/05/2008 @ 6:04 gliageek _INCLUDE_IMAGE_304_END_INCLUDE_IMAGE_
Granulomatous angiitis of the ce   01/05/2008 @ 6:04 gliageek _INCLUDE_IMAGE_305_END_INCLUDE_IMAGE_
Sneddon syndrome   06/05/2008 @ 4:18 jdmiles _INCLUDE_IMAGE_306_END_INCLUDE_IMAGE_
Sneddon syndrome, lateral view   01/05/2008 @ 6:05 gliageek _INCLUDE_IMAGE_307_END_INCLUDE_IMAGE_
Surgical exposure of temporal ar   01/05/2008 @ 6:06 gliageek _INCLUDE_IMAGE_308_END_INCLUDE_IMAGE_
Giant cell arteritis, temporal a   01/05/2008 @ 6:06 gliageek _INCLUDE_IMAGE_309_END_INCLUDE_IMAGE_
Giant cell arteritis, temporal a   01/05/2008 @ 6:08 gliageek _INCLUDE_IMAGE_310_END_INCLUDE_IMAGE_
Acute bilateral tonsillar hernia   01/05/2008 @ 6:24 gliageek _INCLUDE_IMAGE_311_END_INCLUDE_IMAGE_
Transtentorial herniation with u Parasympathetic fibers running on the surface of the oculomotor nerve are preferentially impaired, resulting in unopposed sympathetic innervation to the ciliary body with unilateral pupillary dilatation 01/05/2008 @ 6:26 gliageek _INCLUDE_IMAGE_312_END_INCLUDE_IMAGE_
Transtentorial herniation with s   06/05/2008 @ 4:14 jdmiles _INCLUDE_IMAGE_313_END_INCLUDE_IMAGE_
Petechial intracortical hemorrha   01/05/2008 @ 6:27 gliageek _INCLUDE_IMAGE_314_END_INCLUDE_IMAGE_
Multiple intraparenchymal hemorr   01/05/2008 @ 6:28 gliageek _INCLUDE_IMAGE_315_END_INCLUDE_IMAGE_
Pontine hemorrhages in a patient   01/05/2008 @ 6:28 gliageek _INCLUDE_IMAGE_316_END_INCLUDE_IMAGE_
Saccular (berry) aneur   01/05/2008 @ 6:59 gliageek _INCLUDE_IMAGE_317_END_INCLUDE_IMAGE_
Saccular (berry) aneur   01/05/2008 @ 7:00 gliageek _INCLUDE_IMAGE_318_END_INCLUDE_IMAGE_
Saccular (berry) aneur I should lighten this picture up a bit 01/05/2008 @ 7:00 gliageek _INCLUDE_IMAGE_319_END_INCLUDE_IMAGE_
Transition from arterial wall to   01/05/2008 @ 7:01 gliageek _INCLUDE_IMAGE_320_END_INCLUDE_IMAGE_
Posterior communicating artery a A gross brain image of a coiled aneurysm. 01/05/2008 @ 7:03 gliageek _INCLUDE_IMAGE_321_END_INCLUDE_IMAGE_
Diffuse cerebral edema in a pati   01/05/2008 @ 7:03 gliageek _INCLUDE_IMAGE_322_END_INCLUDE_IMAGE_
Ruptured anterior communicating   06/05/2008 @ 4:11 jdmiles _INCLUDE_IMAGE_323_END_INCLUDE_IMAGE_
Giant anterior communicating art   06/05/2008 @ 4:09 jdmiles _INCLUDE_IMAGE_324_END_INCLUDE_IMAGE_
Giant middle cerebral artery ane This is a gross image of a dissected giant aneurysm. 01/05/2008 @ 7:06 gliageek _INCLUDE_IMAGE_325_END_INCLUDE_IMAGE_
Giant saccular aneurysm, thrombo   01/05/2008 @ 7:06 gliageek _INCLUDE_IMAGE_326_END_INCLUDE_IMAGE_
Giant middle cerebral artery ane   06/05/2008 @ 4:07 jdmiles _INCLUDE_IMAGE_327_END_INCLUDE_IMAGE_
Transition from arterial wall to   01/05/2008 @ 7:08 gliageek _INCLUDE_IMAGE_328_END_INCLUDE_IMAGE_
Ruptured middle cerebral artery   01/05/2008 @ 7:08 gliageek _INCLUDE_IMAGE_329_END_INCLUDE_IMAGE_
Subarachnoid hemorrhage, base of   06/05/2008 @ 4:05 jdmiles _INCLUDE_IMAGE_330_END_INCLUDE_IMAGE_
Subarachnoid hemorrhage, base of   06/05/2008 @ 4:02 jdmiles _INCLUDE_IMAGE_331_END_INCLUDE_IMAGE_
Basilar artery aneurysm, thrombo   01/05/2008 @ 7:10 gliageek _INCLUDE_IMAGE_332_END_INCLUDE_IMAGE_
Basilar artery aneurysm, thrombo   01/05/2008 @ 7:11 gliageek _INCLUDE_IMAGE_333_END_INCLUDE_IMAGE_
Basilar artery aneurysm, thrombo   01/05/2008 @ 7:11 gliageek _INCLUDE_IMAGE_334_END_INCLUDE_IMAGE_
Top of the basilar artery aneury   01/05/2008 @ 7:12 gliageek _INCLUDE_IMAGE_335_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:13 gliageek _INCLUDE_IMAGE_336_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:13 gliageek _INCLUDE_IMAGE_337_END_INCLUDE_IMAGE_
Arteriovenous malformation Note dilated middle cerebral artery within sylvian fissure 01/05/2008 @ 7:16 gliageek _INCLUDE_IMAGE_338_END_INCLUDE_IMAGE_
Arteriovenous malformation   01/05/2008 @ 7:14 gliageek _INCLUDE_IMAGE_339_END_INCLUDE_IMAGE_
Arteriovenous malformation   01/05/2008 @ 7:15 gliageek _INCLUDE_IMAGE_340_END_INCLUDE_IMAGE_
Arteriovenous malformation, with   01/05/2008 @ 7:17 gliageek _INCLUDE_IMAGE_341_END_INCLUDE_IMAGE_
Dilated middle cerebral artery s   01/05/2008 @ 7:17 gliageek _INCLUDE_IMAGE_342_END_INCLUDE_IMAGE_
Arteriovenous malformation, late   01/05/2008 @ 7:18 gliageek _INCLUDE_IMAGE_343_END_INCLUDE_IMAGE_
Cavernous malformation   06/05/2008 @ 3:58 jdmiles _INCLUDE_IMAGE_344_END_INCLUDE_IMAGE_
Foix-alajounine syndrome, spinal please rotate 180 degrees 01/05/2008 @ 7:20 gliageek _INCLUDE_IMAGE_345_END_INCLUDE_IMAGE_
Foix-alajounine syndrome, spinal these rotate 180 degrees 01/05/2008 @ 7:21 gliageek _INCLUDE_IMAGE_346_END_INCLUDE_IMAGE_
Veins of Galen aneurysm, sagitta   01/05/2008 @ 7:22 gliageek _INCLUDE_IMAGE_347_END_INCLUDE_IMAGE_
galenLeft   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_348_END_INCLUDE_IMAGE_
galenRight   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_349_END_INCLUDE_IMAGE_
galenRight2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_350_END_INCLUDE_IMAGE_
Veins of Galen aneurysm, superio   01/05/2008 @ 7:24 gliageek _INCLUDE_IMAGE_351_END_INCLUDE_IMAGE_
Superficial vascular malformatio   01/05/2008 @ 7:25 gliageek _INCLUDE_IMAGE_352_END_INCLUDE_IMAGE_
Arteriovenous malformation, midb   01/05/2008 @ 7:26 gliageek _INCLUDE_IMAGE_353_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:27 gliageek _INCLUDE_IMAGE_354_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:28 gliageek _INCLUDE_IMAGE_355_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:29 gliageek _INCLUDE_IMAGE_356_END_INCLUDE_IMAGE_
Multiple cavernous malformations   06/05/2008 @ 3:48 jdmiles _INCLUDE_IMAGE_357_END_INCLUDE_IMAGE_
Multiple cavernous malformations   01/05/2008 @ 7:32 gliageek _INCLUDE_IMAGE_358_END_INCLUDE_IMAGE_
Capillary telangiectasis, insula   01/05/2008 @ 7:34 gliageek _INCLUDE_IMAGE_359_END_INCLUDE_IMAGE_
Cavernous malformation, trichrom   01/05/2008 @ 7:35 gliageek _INCLUDE_IMAGE_360_END_INCLUDE_IMAGE_
Venous infarcts, frontal lobes b   01/05/2008 @ 7:36 gliageek _INCLUDE_IMAGE_361_END_INCLUDE_IMAGE_
Venous infarcts, frontal lobes b   01/05/2008 @ 7:36 gliageek _INCLUDE_IMAGE_362_END_INCLUDE_IMAGE_
Bilateral venous infarcts second   01/05/2008 @ 7:37 gliageek _INCLUDE_IMAGE_363_END_INCLUDE_IMAGE_
Bilateral venous infarcts, multi   01/05/2008 @ 7:38 gliageek _INCLUDE_IMAGE_364_END_INCLUDE_IMAGE_
Superior sagittal sinus thrombus   01/05/2008 @ 7:38 gliageek _INCLUDE_IMAGE_365_END_INCLUDE_IMAGE_
Venous infarct, frontal lobe   01/05/2008 @ 7:39 gliageek _INCLUDE_IMAGE_366_END_INCLUDE_IMAGE_
Cortical venous thrombosis in a   01/05/2008 @ 7:39 gliageek _INCLUDE_IMAGE_367_END_INCLUDE_IMAGE_
4G8   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_368_END_INCLUDE_IMAGE_
A07-35PS1HP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_369_END_INCLUDE_IMAGE_
A07-35PS1LP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_370_END_INCLUDE_IMAGE_
A7-35PS1CBLLMmp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_371_END_INCLUDE_IMAGE_
ADStem   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_372_END_INCLUDE_IMAGE_
AlzAerial   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_373_END_INCLUDE_IMAGE_
Base   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_374_END_INCLUDE_IMAGE_
eARLYADSURGICALMM-ubiq   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_375_END_INCLUDE_IMAGE_
NFT_LC   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_376_END_INCLUDE_IMAGE_
PS-1MP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_377_END_INCLUDE_IMAGE_
ALSventralCordMono   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_378_END_INCLUDE_IMAGE_
Kugelberg1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_379_END_INCLUDE_IMAGE_
Kugelberg1b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_380_END_INCLUDE_IMAGE_
Kugelberg2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_381_END_INCLUDE_IMAGE_
dentUbiqftld-u   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_382_END_INCLUDE_IMAGE_
FLDaereal   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_383_END_INCLUDE_IMAGE_
FLDantHCclose   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_384_END_INCLUDE_IMAGE_
FLDcor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_385_END_INCLUDE_IMAGE_
FLDhemiCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_386_END_INCLUDE_IMAGE_
FLDhemicorant   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_387_END_INCLUDE_IMAGE_
FLDhoriz   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_388_END_INCLUDE_IMAGE_
FLDlateral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_389_END_INCLUDE_IMAGE_
HeredDyspasicDementiaA96-33   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_390_END_INCLUDE_IMAGE_
PickBilFrontClose   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_391_END_INCLUDE_IMAGE_
PickBilFrontCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_392_END_INCLUDE_IMAGE_
PicksAerialAnt   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_393_END_INCLUDE_IMAGE_
PickVenral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_394_END_INCLUDE_IMAGE_
PostCerebAtrophyLat   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_395_END_INCLUDE_IMAGE_
A2-169caudaSMI34   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_396_END_INCLUDE_IMAGE_
A2-169cblmmp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_397_END_INCLUDE_IMAGE_
A2-169CEREBELDEGEN   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_398_END_INCLUDE_IMAGE_
FredreichCord   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_399_END_INCLUDE_IMAGE_
HDcor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_400_END_INCLUDE_IMAGE_
HDLSparietal   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_401_END_INCLUDE_IMAGE_
HDvCntrlCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_402_END_INCLUDE_IMAGE_
LENAS   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_403_END_INCLUDE_IMAGE_
OPCAcoronals   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_404_END_INCLUDE_IMAGE_
OPCAmedTransv   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_405_END_INCLUDE_IMAGE_
OPCAmedullaWM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_406_END_INCLUDE_IMAGE_
OPCAponsWM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_407_END_INCLUDE_IMAGE_
OPCAventral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_408_END_INCLUDE_IMAGE_
versuscontrol   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_409_END_INCLUDE_IMAGE_
CBGDcor (2)   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_410_END_INCLUDE_IMAGE_
CBGDcor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_411_END_INCLUDE_IMAGE_
GCIsDentateSyn   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_412_END_INCLUDE_IMAGE_
LewyBody   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_413_END_INCLUDE_IMAGE_
MSA-Cmedulla   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_414_END_INCLUDE_IMAGE_
msa-c_olive   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_415_END_INCLUDE_IMAGE_
MSA-C_ventralLPgross   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_416_END_INCLUDE_IMAGE_
MSAcor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_417_END_INCLUDE_IMAGE_
MSAcystsHorizontal   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_418_END_INCLUDE_IMAGE_
MSAhemiputamen094_5   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_419_END_INCLUDE_IMAGE_
msa_c_dentate   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_420_END_INCLUDE_IMAGE_
OliveSynMSA   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_421_END_INCLUDE_IMAGE_
OliveSynMSAlp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_422_END_INCLUDE_IMAGE_
PDvCntrlSNtrans   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_423_END_INCLUDE_IMAGE_
PSPcor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_424_END_INCLUDE_IMAGE_
PSPdenthp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_425_END_INCLUDE_IMAGE_
PSPsnhp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_426_END_INCLUDE_IMAGE_
PSPsnmp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_427_END_INCLUDE_IMAGE_
PSPst   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_428_END_INCLUDE_IMAGE_
SND_Pnigratrans   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_429_END_INCLUDE_IMAGE_
SN_LB   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_430_END_INCLUDE_IMAGE_
Thalamotomy1976   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_431_END_INCLUDE_IMAGE_
ACC001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_432_END_INCLUDE_IMAGE_
ACC1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_433_END_INCLUDE_IMAGE_
ACC2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_434_END_INCLUDE_IMAGE_
ACC3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_435_END_INCLUDE_IMAGE_
ACCsag   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_436_END_INCLUDE_IMAGE_
CerebelSag   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_437_END_INCLUDE_IMAGE_
CorHP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_438_END_INCLUDE_IMAGE_
coronal   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_439_END_INCLUDE_IMAGE_
CorPost   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_440_END_INCLUDE_IMAGE_
SagHP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_441_END_INCLUDE_IMAGE_
sagittal   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_442_END_INCLUDE_IMAGE_
dorsal1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_443_END_INCLUDE_IMAGE_
HPE   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_444_END_INCLUDE_IMAGE_
HPE001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_445_END_INCLUDE_IMAGE_
HPE005   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_446_END_INCLUDE_IMAGE_
HPE2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_447_END_INCLUDE_IMAGE_
HPEfloating   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_448_END_INCLUDE_IMAGE_
HPE_cyclopia_1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_449_END_INCLUDE_IMAGE_
HPE_leukenschaedel_1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_450_END_INCLUDE_IMAGE_
HPE_tri13_1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_451_END_INCLUDE_IMAGE_
HPE_tri13_2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_452_END_INCLUDE_IMAGE_
OlfactoryAgenesis   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_453_END_INCLUDE_IMAGE_
OlfAgen   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_454_END_INCLUDE_IMAGE_
OlfAgenVentClose   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_455_END_INCLUDE_IMAGE_
ventral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_456_END_INCLUDE_IMAGE_
S07-13327VacCellsMP021   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_457_END_INCLUDE_IMAGE_
TaySachs1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_458_END_INCLUDE_IMAGE_
TaySachs2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_459_END_INCLUDE_IMAGE_
Wilsons   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_460_END_INCLUDE_IMAGE_
Zellwegger   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_461_END_INCLUDE_IMAGE_
DSC_0004   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_462_END_INCLUDE_IMAGE_
DSC_0005   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_463_END_INCLUDE_IMAGE_
DSC_0010   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_464_END_INCLUDE_IMAGE_
DSC_0011   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_465_END_INCLUDE_IMAGE_
HemimegKluverWM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_466_END_INCLUDE_IMAGE_
HemimegSurgCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_467_END_INCLUDE_IMAGE_
HME   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_468_END_INCLUDE_IMAGE_
NodHetero2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_469_END_INCLUDE_IMAGE_
NodHeterotop1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_470_END_INCLUDE_IMAGE_
PachygyriaCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_471_END_INCLUDE_IMAGE_
PMG1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_472_END_INCLUDE_IMAGE_
PMG2a   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_473_END_INCLUDE_IMAGE_
PMG2b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_474_END_INCLUDE_IMAGE_
PMG3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_475_END_INCLUDE_IMAGE_
PolyGyria   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_476_END_INCLUDE_IMAGE_
WalkerWarburg   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_477_END_INCLUDE_IMAGE_
Walker_Warburg001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_478_END_INCLUDE_IMAGE_
Walker_Warburg004   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_479_END_INCLUDE_IMAGE_
ZonalHeterotopCor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_480_END_INCLUDE_IMAGE_
AgenMagendie   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_481_END_INCLUDE_IMAGE_
AHSHE   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_482_END_INCLUDE_IMAGE_
ArachCyst   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_483_END_INCLUDE_IMAGE_
AtaxTelangiect   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_484_END_INCLUDE_IMAGE_
CClipoma2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_485_END_INCLUDE_IMAGE_
CHtubermp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_486_END_INCLUDE_IMAGE_
Dandy-Walker002   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_487_END_INCLUDE_IMAGE_
DandyWalker3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_488_END_INCLUDE_IMAGE_
DWgross   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_489_END_INCLUDE_IMAGE_
DW_CrimWM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_490_END_INCLUDE_IMAGE_
Ecchordosis1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_491_END_INCLUDE_IMAGE_
Ecchordosis2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_492_END_INCLUDE_IMAGE_
EndplateGliosis   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_493_END_INCLUDE_IMAGE_
LipomaTuberCin   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_494_END_INCLUDE_IMAGE_
macules   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_495_END_INCLUDE_IMAGE_
macules2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_496_END_INCLUDE_IMAGE_
menigioangiomatosis_40x   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_497_END_INCLUDE_IMAGE_
MicrocephIschemicLateral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_498_END_INCLUDE_IMAGE_
ScleroticMeningioang   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_499_END_INCLUDE_IMAGE_
SCM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_500_END_INCLUDE_IMAGE_
SEGACor   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_501_END_INCLUDE_IMAGE_
Syringomyelia   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_502_END_INCLUDE_IMAGE_
TS_subependNodules   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_503_END_INCLUDE_IMAGE_
Tuber1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_504_END_INCLUDE_IMAGE_
ventral   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_505_END_INCLUDE_IMAGE_
ventralNCM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_506_END_INCLUDE_IMAGE_
Anencep1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_507_END_INCLUDE_IMAGE_
Anencep2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_508_END_INCLUDE_IMAGE_
ChiariBelow   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_509_END_INCLUDE_IMAGE_
ChiariDorsal003   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_510_END_INCLUDE_IMAGE_
ChiariIId   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_511_END_INCLUDE_IMAGE_
ChiariII_fullLegnth   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_512_END_INCLUDE_IMAGE_
ChiariKink   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_513_END_INCLUDE_IMAGE_
ChiariLateral004   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_514_END_INCLUDE_IMAGE_
ChiariMB   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_515_END_INCLUDE_IMAGE_
ChiariMidSag1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_516_END_INCLUDE_IMAGE_
ChiariSide   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_517_END_INCLUDE_IMAGE_
ChiariVentral001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_518_END_INCLUDE_IMAGE_
ChiariVentral002   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_519_END_INCLUDE_IMAGE_
Craniopharyngioma001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_520_END_INCLUDE_IMAGE_
CranioRach   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_521_END_INCLUDE_IMAGE_
CRtotalis001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_522_END_INCLUDE_IMAGE_
CRtotalis002   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_523_END_INCLUDE_IMAGE_
CRtotalisXRAY   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_524_END_INCLUDE_IMAGE_
CTSD1b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_525_END_INCLUDE_IMAGE_
Encephalocele1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_526_END_INCLUDE_IMAGE_
Encephalocele2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_527_END_INCLUDE_IMAGE_
Inenecephaly   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_528_END_INCLUDE_IMAGE_
Lochenshadel   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_529_END_INCLUDE_IMAGE_
Myelo1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_530_END_INCLUDE_IMAGE_
Myelo2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_531_END_INCLUDE_IMAGE_
ALD1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_532_END_INCLUDE_IMAGE_
ALD2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_533_END_INCLUDE_IMAGE_
Alexander1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_534_END_INCLUDE_IMAGE_
Alexander2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_535_END_INCLUDE_IMAGE_
Alexander3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_536_END_INCLUDE_IMAGE_
Cockayne1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_537_END_INCLUDE_IMAGE_
Cockayne2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_538_END_INCLUDE_IMAGE_
Cockayne3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_539_END_INCLUDE_IMAGE_
Cockayne4   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_540_END_INCLUDE_IMAGE_
Cockayne5   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_541_END_INCLUDE_IMAGE_
Cockayne6   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_542_END_INCLUDE_IMAGE_
Cockayne7   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_543_END_INCLUDE_IMAGE_
Krabbe1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_544_END_INCLUDE_IMAGE_
Krabbe1b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_545_END_INCLUDE_IMAGE_
Krabbe2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_546_END_INCLUDE_IMAGE_
Krabbe3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_547_END_INCLUDE_IMAGE_
Krabbe4   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_548_END_INCLUDE_IMAGE_
KrabbeHP   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_549_END_INCLUDE_IMAGE_
neonatalKrabbehp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_550_END_INCLUDE_IMAGE_
PM_3   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_551_END_INCLUDE_IMAGE_
PM_4   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_552_END_INCLUDE_IMAGE_
CPM2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_553_END_INCLUDE_IMAGE_
creutz4_20367   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_554_END_INCLUDE_IMAGE_
Leigh1   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_555_END_INCLUDE_IMAGE_
Leigh1b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_556_END_INCLUDE_IMAGE_
Leigh1c   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_557_END_INCLUDE_IMAGE_
Leigh2a   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_558_END_INCLUDE_IMAGE_
Leigh2b   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_559_END_INCLUDE_IMAGE_
Machiafava001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_560_END_INCLUDE_IMAGE_
sagittalhp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_561_END_INCLUDE_IMAGE_
sagittalhpplAT   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_562_END_INCLUDE_IMAGE_
tldl-lp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_563_END_INCLUDE_IMAGE_
tldl-tp2   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_564_END_INCLUDE_IMAGE_
ventmp   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_565_END_INCLUDE_IMAGE_
VWMDchromatolysis   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_566_END_INCLUDE_IMAGE_
VWMD_Thalamus   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_567_END_INCLUDE_IMAGE_
A0472THAL_MS   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_568_END_INCLUDE_IMAGE_
A08-11cervcord   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_569_END_INCLUDE_IMAGE_
A08-11cervcordPLAT   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_570_END_INCLUDE_IMAGE_
A08-11midsag   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_571_END_INCLUDE_IMAGE_
A84_368aMS   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_572_END_INCLUDE_IMAGE_
A84_368bMS   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_573_END_INCLUDE_IMAGE_
bsplaque   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_574_END_INCLUDE_IMAGE_
DemyelinationEM   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_575_END_INCLUDE_IMAGE_
Hurst001   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_576_END_INCLUDE_IMAGE_
MSplaqueCrimbringStain   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_577_END_INCLUDE_IMAGE_
MSponsClose   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_578_END_INCLUDE_IMAGE_
MSspRT   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_579_END_INCLUDE_IMAGE_
MStempcd68   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_580_END_INCLUDE_IMAGE_
MS_postPV   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_581_END_INCLUDE_IMAGE_
MS_PV   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_582_END_INCLUDE_IMAGE_
Zerkin   27/04/2008 @ 12:20 jdmiles _INCLUDE_IMAGE_583_END_INCLUDE_IMAGE_
Gray - Brachial Plexus A plate from Gray's anatomy, illustating the brachial plexus. 19/08/2008 @ 16:23 jdmiles _INCLUDE_IMAGE_584_END_INCLUDE_IMAGE_
Note to gliageek 1 This is a temporary image. I am using it to communicate to gliageek and ruku05 about the upcoming online pathology course. 28/08/2008 @ 15:48 jdmiles _INCLUDE_IMAGE_585_END_INCLUDE_IMAGE_
Note to gliageek 2 This is a temporary image. I am using it to communicate to gliageek and ruku05 about the upcoming online pathology course. 28/08/2008 @ 15:51 jdmiles _INCLUDE_IMAGE_586_END_INCLUDE_IMAGE_
H&E Stain of an Anaplastic Astro Hematoxylin and Eosin (H&E) is the most commonly used stain in neuropathology. Although many diagnoses require special stains, there are features that show up on H&E which can guide the decision to make subsequent stains. Often, there are features of a disease which are visible on H&E, such as the astrocytoma cells arranged in "pencil bundles" seen on this brain specimen. 01/09/2008 @ 7:51 jdmiles _INCLUDE_IMAGE_587_END_INCLUDE_IMAGE_
Amyloid Angiopathy Labeled A photomicrograph of a slice of brain tissue, which is stained with an immune stain that is specific for amyloid. The unnecessarily large red arrows in this image point to amyloid plaques and amyloid in a blood vessel. 01/09/2008 @ 15:30 jdmiles _INCLUDE_IMAGE_588_END_INCLUDE_IMAGE_
A Foot A picture of a pes cavus deformity, with a really helpful label and unnecessarily large red arrow. 01/09/2008 @ 18:19 jdmiles _INCLUDE_IMAGE_589_END_INCLUDE_IMAGE_
Acute neuronal necrosis - cerebe Eosinophilic neuronal degeneration selectively involving Purkinje cells. 02/09/2008 @ 4:31 gliageek _INCLUDE_IMAGE_590_END_INCLUDE_IMAGE_
Acute neuronal necrosis cerebell The cells circled in green in this image are Purkinje cells. Purkinje cells are found in the cerebellum between the granule cell layer (dark blue cells) and the molecular layer (homogenous pink area). These Purkinje cells are bright red, which is an indicator of anoxic injury. Purkinje cells are very sensitive to hypoxia, and are among the first cells to die in cerebral ischemia. 02/09/2008 @ 10:04 jdmiles _INCLUDE_IMAGE_591_END_INCLUDE_IMAGE_
Gomori Trichrome Nemaline Rods 2 A Gomori trichrome stain of skeletal muscle from an individual with nemaline rod myopathy. The rods themselves show up as small dark dots on trichrome (highlighted here by the red circles). Note that these rods typically do not show up on H&E staining. 02/09/2008 @ 11:23 jdmiles _INCLUDE_IMAGE_592_END_INCLUDE_IMAGE_
Acute Wernicke Midbrain Transver A gross image of the midbrain, showing changes typical of acute Wernicke encephalopathy. 02/09/2008 @ 16:55 jdmiles _INCLUDE_IMAGE_593_END_INCLUDE_IMAGE_
Chronic Wernicke Coronal A coronal view of gross brain from a patient with chronic Wernicke encephalopathy. 02/09/2008 @ 17:00 jdmiles _INCLUDE_IMAGE_594_END_INCLUDE_IMAGE_
Angiocentric Glioma H&E Angiocentric Glioma H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1190_END_INCLUDE_IMAGE_
Desmoplastic infantile astrocyto Desmoplastic infantile astrocytoma x100 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1191_END_INCLUDE_IMAGE_
Desmoplastic infantile astrocyto Desmoplastic infantile astrocytoma x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1192_END_INCLUDE_IMAGE_
Desmoplastic infantile gangliogl Desmoplastic infantile ganglioglioma x100 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1193_END_INCLUDE_IMAGE_
Desmoplastic infantile gangliogl Desmoplastic infantile ganglioglioma x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1194_END_INCLUDE_IMAGE_
Dysembryoplastic Neuroepithelial Dysembryoplastic Neuroepithelial Tumor Coronal 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1195_END_INCLUDE_IMAGE_
Dysembryoplastic Neuroepithelial Dysembryoplastic Neuroepithelial Tumor H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1196_END_INCLUDE_IMAGE_
Dysembryoplastic Neuroepithelial Dysembryoplastic Neuroepithelial Tumor Ventral Close Up 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1197_END_INCLUDE_IMAGE_
Dysembryoplastic Neuroepthelial Dysembryoplastic Neuroepthelial Tumor Ventral 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1198_END_INCLUDE_IMAGE_
Lhermitte-Duclos H&E Lhermitte-Duclos H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1199_END_INCLUDE_IMAGE_
Lhermitte-Duclos Whole Mount H&E Lhermitte-Duclos Whole Mount H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1200_END_INCLUDE_IMAGE_
Lhermitte Duclos Surgical Exposu Lhermitte Duclos Surgical Exposure 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1201_END_INCLUDE_IMAGE_
Central neurocytoma smear x400 Central neurocytoma smear x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1202_END_INCLUDE_IMAGE_
Central neurocytoma x200 Central neurocytoma x200 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1203_END_INCLUDE_IMAGE_
Central neurocytoma x400 Central neurocytoma x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1204_END_INCLUDE_IMAGE_
Central Neurocytoma H&E Central Neurocytoma H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1205_END_INCLUDE_IMAGE_
Rosetted Glioneuronal Tumor IVth Rosetted Glioneuronal Tumor IVth Ventricle H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1206_END_INCLUDE_IMAGE_
Cerebellar Hemagioblastoma Dorsa Cerebellar Hemagioblastoma Dorsal 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1207_END_INCLUDE_IMAGE_
Cer Hemangioblast lp Cer Hemangioblast lp 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1208_END_INCLUDE_IMAGE_
Hemangioblastoma Hemangioblastoma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1209_END_INCLUDE_IMAGE_
Hemangioblastoma H&E Hemangioblastoma H&E 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1210_END_INCLUDE_IMAGE_
amyloidoma amyloidoma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1211_END_INCLUDE_IMAGE_
amyloidoma CR pol LP amyloidoma CR pol LP 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1212_END_INCLUDE_IMAGE_
Amyloidotic Plasmacytoma x200 Amyloidotic Plasmacytoma x200 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1213_END_INCLUDE_IMAGE_
plasmacytoma plasmacytoma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1214_END_INCLUDE_IMAGE_
Plasmacytoma Smear Plasmacytoma Smear 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1215_END_INCLUDE_IMAGE_
Spine Amyloidoma Spine Amyloidoma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1216_END_INCLUDE_IMAGE_
Spine Amyloidoma HP Spine Amyloidoma HP 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1217_END_INCLUDE_IMAGE_
IVL cd20hp IVL cd20hp 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1218_END_INCLUDE_IMAGE_
ivl hp ivl hp 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1219_END_INCLUDE_IMAGE_
IVL x400 IVL x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1220_END_INCLUDE_IMAGE_
CNS leukemia x100 CNS leukemia x100 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1221_END_INCLUDE_IMAGE_
CNS leukemia x400 CNS leukemia x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1222_END_INCLUDE_IMAGE_
Meningeal Leukemia x200 Meningeal Leukemia x200 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1223_END_INCLUDE_IMAGE_
Dural Malt Lymphoma x400 Dural Malt Lymphoma x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1224_END_INCLUDE_IMAGE_
Dural Malt smear Dural Malt smear 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1225_END_INCLUDE_IMAGE_
Dura Malt Lymphoma x100 Dura Malt Lymphoma x100 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1226_END_INCLUDE_IMAGE_
Large B-cell Lymphoma Leg Large B-cell Lymphoma Leg 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1227_END_INCLUDE_IMAGE_
Leg Lymphomamet Braib x200 Leg Lymphomamet Braib x200 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1228_END_INCLUDE_IMAGE_
PCNSL-hp PCNSL-hp 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1229_END_INCLUDE_IMAGE_
PCNSL crush x40 PCNSL crush x40 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1230_END_INCLUDE_IMAGE_
PCNSL retic PCNSL retic 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1231_END_INCLUDE_IMAGE_
PCNSL Smear x40 PCNSL Smear x40 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1232_END_INCLUDE_IMAGE_
PCNSL smear x600 PCNSL smear x600 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1233_END_INCLUDE_IMAGE_
PCNSL CD20 PCNSL CD20 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1234_END_INCLUDE_IMAGE_
PCNSL vascular PCNSL vascular 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1235_END_INCLUDE_IMAGE_
Primary CNS lymphoma x40 Primary CNS lymphoma x40 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1236_END_INCLUDE_IMAGE_
Primary CNS Lymphoma x400 Primary CNS Lymphoma x400 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1237_END_INCLUDE_IMAGE_
Anaplastic Menigioma Coronal Anaplastic Menigioma Coronal 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1238_END_INCLUDE_IMAGE_
Anaplastic Meningioma Ventral Anaplastic Meningioma Ventral 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1239_END_INCLUDE_IMAGE_
Anaplastic Meningioma Anaplastic Meningioma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1240_END_INCLUDE_IMAGE_
atypical mening atypical mening 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1241_END_INCLUDE_IMAGE_
atyp mening atyp mening 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1242_END_INCLUDE_IMAGE_
Meningioma x40 Meningioma x40 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1243_END_INCLUDE_IMAGE_
Meningioma Meningioma 13/09/2008 @ 9:08 gliageek _INCLUDE_IMAGE_1244_END_INCLUDE_IMAGE_
Arterial Border Zone Infarcts Ce Arterial Border Zone Infarcts Cerebellum Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_595_END_INCLUDE_IMAGE_
Arterial Border Zone Infarcts Cl Arterial Border Zone Infarcts Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_596_END_INCLUDE_IMAGE_
Watershed Infarcts Hemisphere Co Watershed Infarcts Hemisphere Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_597_END_INCLUDE_IMAGE_
Axonal Injury BAM10 mp Axonal Injury BAM10 mp 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_598_END_INCLUDE_IMAGE_
Axonal Injury BAM10 HP Axonal Injury BAM10 HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_599_END_INCLUDE_IMAGE_
Cerebellar Sclerosis Sagittal Cerebellar Sclerosis Sagittal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_600_END_INCLUDE_IMAGE_
Eosinophilic Neuronal Degenerati Eosinophilic Neuronal Degeneration Cerebellum x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_601_END_INCLUDE_IMAGE_
Eosinophilic Neuronal Degenerati Eosinophilic Neuronal Degeneration Hippocampus x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_602_END_INCLUDE_IMAGE_
Eosinophilic Neuronal Degenerati Eosinophilic Neuronal Degeneration Hippocampus x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_603_END_INCLUDE_IMAGE_
Laminar Necrosis Laminar Necrosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_604_END_INCLUDE_IMAGE_
Spinal Cord Anoxia Transverse Spinal Cord Anoxia Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_605_END_INCLUDE_IMAGE_
ACA Infarct Sagittal ACA Infarct Sagittal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_606_END_INCLUDE_IMAGE_
Bilateral Pallidal Necrosis Bilateral Pallidal Necrosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_607_END_INCLUDE_IMAGE_
Bilateral PCA Coronal Bilateral PCA Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_608_END_INCLUDE_IMAGE_
Fat Emboli Fresh Coronal Fat Emboli Fresh Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_609_END_INCLUDE_IMAGE_
Lacunar Infarcts Pons Lacunar Infarcts Pons 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_610_END_INCLUDE_IMAGE_
Cavitated MCA infarct Lateral Cavitated MCA infarct Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_611_END_INCLUDE_IMAGE_
Organizing Infarct Wernicke Area Organizing Infarct Wernicke Area 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_612_END_INCLUDE_IMAGE_
Organizing MCA with Secondary CS Organizing MCA with Secondary CS degeneration 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_613_END_INCLUDE_IMAGE_
Recent MCAWhole Mount Recent MCAWhole Mount 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_614_END_INCLUDE_IMAGE_
PCABilirubin Sagittal PCABilirubin Sagittal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_615_END_INCLUDE_IMAGE_
Dorsolateral Medullary Infarct Dorsolateral Medullary Infarct 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_616_END_INCLUDE_IMAGE_
Dorsolateral Medullary Multiple Dorsolateral Medullary Multiple Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_617_END_INCLUDE_IMAGE_
Organizing Infarct Cerebellar Sa Organizing Infarct Cerebellar Sagittal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_618_END_INCLUDE_IMAGE_
PICA hemmorrhagic Cerebellar PICA hemmorrhagic Cerebellar 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_619_END_INCLUDE_IMAGE_
PICA Ventral PICA Ventral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_620_END_INCLUDE_IMAGE_
Thalamic Infarct Coronal Thalamic Infarct Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_621_END_INCLUDE_IMAGE_
Basilar Thrombus Ventral Basilar Thrombus Ventral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_622_END_INCLUDE_IMAGE_
Internal Carotid Thrombus Internal Carotid Thrombus 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_623_END_INCLUDE_IMAGE_
Thromboembolus Thromboembolus 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_624_END_INCLUDE_IMAGE_
Thromboembolus LP Thromboembolus LP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_625_END_INCLUDE_IMAGE_
Amyloid Angiopathy H&E Amyloid Angiopathy H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_626_END_INCLUDE_IMAGE_
Amyloid Angiopathy IHC Amyloid Angiopathy IHC 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_627_END_INCLUDE_IMAGE_
amyloid Angiopathy amyloid Angiopathy 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_628_END_INCLUDE_IMAGE_
Amyloid Angiopathy IHC Amyloid Angiopathy IHC 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_629_END_INCLUDE_IMAGE_
Lobar Hemorrhage Coronal Lobar Hemorrhage Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_630_END_INCLUDE_IMAGE_
Hemorrhagic Pineal Cyst Hemorrhagic Pineal Cyst 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_631_END_INCLUDE_IMAGE_
Basal Ganglia Hemorrhage Horizon Basal Ganglia Hemorrhage Horizontal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_632_END_INCLUDE_IMAGE_
Ceerebellar Hemorrhage Transvers Ceerebellar Hemorrhage Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_633_END_INCLUDE_IMAGE_
Pontine Hemorrhage Sagittal Pontine Hemorrhage Sagittal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_634_END_INCLUDE_IMAGE_
Pontine Hemorrhage Transverse Mu Pontine Hemorrhage Transverse Multiple 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_635_END_INCLUDE_IMAGE_
Putaminal Hemorrhage Coronal Putaminal Hemorrhage Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_636_END_INCLUDE_IMAGE_
Thalamic Hemorrhage Coronal Thalamic Hemorrhage Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_637_END_INCLUDE_IMAGE_
Cord Hemorrhage Leukemia Dorsal Cord Hemorrhage Leukemia Dorsal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_638_END_INCLUDE_IMAGE_
Cord Hemorrhage Leukemia Transve Cord Hemorrhage Leukemia Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_639_END_INCLUDE_IMAGE_
Mycotic Aneurysm Coronal Mycotic Aneurysm Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_640_END_INCLUDE_IMAGE_
Circle of Willis Dissected Circle of Willis Dissected 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_641_END_INCLUDE_IMAGE_
Etat Crible Etat Crible 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_642_END_INCLUDE_IMAGE_
Fibromuscular Dysplasia Dissecte Fibromuscular Dysplasia Dissected 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_643_END_INCLUDE_IMAGE_
Granular Atrophy Close Up Granular Atrophy Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_644_END_INCLUDE_IMAGE_
Bilateral Tonsillar Necrosis Bilateral Tonsillar Necrosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_645_END_INCLUDE_IMAGE_
IIrd Nerve Compression Transtent IIrd Nerve Compression Transtentorial Herniation 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_646_END_INCLUDE_IMAGE_
Midbrain Hemorrhage from Transte Midbrain Hemorrhage from Transtentorial Herniation 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_647_END_INCLUDE_IMAGE_
Malignant Hypertension Edema Malignant Hypertension Edema 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_648_END_INCLUDE_IMAGE_
Multiple Angioma Brain Ventral w Multiple Angioma Brain Ventral with Siderosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_649_END_INCLUDE_IMAGE_
Siderosis medulla x40 Siderosis medulla x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_650_END_INCLUDE_IMAGE_
Siderosis x400 Siderosis x400 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_651_END_INCLUDE_IMAGE_
Sneddon Syndrome Dorsal Sneddon Syndrome Dorsal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_652_END_INCLUDE_IMAGE_
Sneddon Syndrome Lateral Sneddon Syndrome Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_653_END_INCLUDE_IMAGE_
TTP Horizontal TTP Horizontal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_654_END_INCLUDE_IMAGE_
GANS GANS 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_655_END_INCLUDE_IMAGE_
GANS HP GANS HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_656_END_INCLUDE_IMAGE_
GCA GCA 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_657_END_INCLUDE_IMAGE_
GCarteritis x100 GCarteritis x100 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_658_END_INCLUDE_IMAGE_
GCarteritis x200 GCarteritis x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_659_END_INCLUDE_IMAGE_
Giant Cell Arteritis x40 Giant Cell Arteritis x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_660_END_INCLUDE_IMAGE_
Giant Cell Arteritis x400 Giant Cell Arteritis x400 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_661_END_INCLUDE_IMAGE_
JTAE in Kimura JTAE in Kimura 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_662_END_INCLUDE_IMAGE_
JTAElp JTAElp 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_663_END_INCLUDE_IMAGE_
JTAE HP JTAE HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_664_END_INCLUDE_IMAGE_
PACNS LM HP PACNS LM HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_665_END_INCLUDE_IMAGE_
PANS LM PANS LM 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_666_END_INCLUDE_IMAGE_
Temporal Arteritis Low Power H&E Temporal Arteritis Low Power H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_667_END_INCLUDE_IMAGE_
Temporal Artery Surgical Exposur Temporal Artery Surgical Exposure 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_668_END_INCLUDE_IMAGE_
Aneurysm Wall Elastin Aneurysm Wall Elastin 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_669_END_INCLUDE_IMAGE_
Aneurysm Wall HP Aneurysm Wall HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_670_END_INCLUDE_IMAGE_
aneurysm Wall LP aneurysm Wall LP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_671_END_INCLUDE_IMAGE_
Aneurysm Wall MOVAT Aneurysm Wall MOVAT 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_672_END_INCLUDE_IMAGE_
Aneurysm Wall Movat HP Aneurysm Wall Movat HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_673_END_INCLUDE_IMAGE_
aneurysm Wall Trichrom aneurysm Wall Trichrom 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_674_END_INCLUDE_IMAGE_
Cerebra Edema due to SAH In Situ Cerebra Edema due to SAH In Situ 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_675_END_INCLUDE_IMAGE_
Giant Circle of Willis Aneurysm Giant Circle of Willis Aneurysm Ventral Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_676_END_INCLUDE_IMAGE_
Giant MCA aneurysm Ventral Giant MCA aneurysm Ventral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_677_END_INCLUDE_IMAGE_
PComm Aneurysm Coiled PComm Aneurysm Coiled 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_678_END_INCLUDE_IMAGE_
Ruptured ACoA with Clip Ventral Ruptured ACoA with Clip Ventral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_679_END_INCLUDE_IMAGE_
Ruptured MCA aneurysm dissected Ruptured MCA aneurysm dissected 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_680_END_INCLUDE_IMAGE_
Ruptured Top of Basilar Aneurysm Ruptured Top of Basilar Aneurysm 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_681_END_INCLUDE_IMAGE_
Subarachnoid Hemorrhage Ventral Subarachnoid Hemorrhage Ventral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_682_END_INCLUDE_IMAGE_
Thrombosed Basilar Aneurysm Tran Thrombosed Basilar Aneurysm Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_683_END_INCLUDE_IMAGE_
AVM Coronal Closer Up AVM Coronal Closer Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_684_END_INCLUDE_IMAGE_
AVM Coronal AVM Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_685_END_INCLUDE_IMAGE_
AVM Corona Draining Veil AVM Corona Draining Veil 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_686_END_INCLUDE_IMAGE_
Midbrain AVM Midbrain AVM 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_687_END_INCLUDE_IMAGE_
Angioma Angioma 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_688_END_INCLUDE_IMAGE_
Angioma Ossification x100 Angioma Ossification x100 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_689_END_INCLUDE_IMAGE_
Angioma Trichrome Angioma Trichrome 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_690_END_INCLUDE_IMAGE_
Angioma x100 Angioma x100 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_691_END_INCLUDE_IMAGE_
Angioma x400 Angioma x400 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_692_END_INCLUDE_IMAGE_
Multiple Angioma Brain Coronal w Multiple Angioma Brain Coronal with Pons 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_693_END_INCLUDE_IMAGE_
Multiple Angioma Cerebellum Sagi Multiple Angioma Cerebellum Sagittal Siderosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_694_END_INCLUDE_IMAGE_
Multiple Angioma Pons Transverse Multiple Angioma Pons Transverse 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_695_END_INCLUDE_IMAGE_
Foix-Alajounine Foix-Alajounine 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_696_END_INCLUDE_IMAGE_
Telangiectasis Insula Coronal Cl Telangiectasis Insula Coronal Close 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_697_END_INCLUDE_IMAGE_
Bilateral Venous Infarcts Dorsal Bilateral Venous Infarcts Dorsal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_698_END_INCLUDE_IMAGE_
Bilateral Venous Infarcts Multi Bilateral Venous Infarcts Multi Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_699_END_INCLUDE_IMAGE_
Cortical Venous Thrombosis Later Cortical Venous Thrombosis Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_700_END_INCLUDE_IMAGE_
SSS Thrombus Cut Section SSS Thrombus Cut Section 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_701_END_INCLUDE_IMAGE_
Venous Thrombosis Dorsal Shaken2 Venous Thrombosis Dorsal Shaken23mo 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_702_END_INCLUDE_IMAGE_
AD-Hippocampus x40 AD-Hippocampus x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_703_END_INCLUDE_IMAGE_
AD-occipital neocortex x200 AD-occipital neocortex x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_704_END_INCLUDE_IMAGE_
ADhippocampus King Stain x40 ADhippocampus King Stain x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_705_END_INCLUDE_IMAGE_
ADocclp x40 ADocclp x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_706_END_INCLUDE_IMAGE_
Alzheimer Disease Amyloid IHC Alzheimer Disease Amyloid IHC 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_707_END_INCLUDE_IMAGE_
Alzheimer Disease NFTin Locus Ce Alzheimer Disease NFTin Locus Ceruleus H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_708_END_INCLUDE_IMAGE_
Alzheimer Disease Ventral Brain Alzheimer Disease Ventral Brain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_709_END_INCLUDE_IMAGE_
Bodian x40 Bodian x40 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_710_END_INCLUDE_IMAGE_
Cotton-Wool Plaques Cerebellum Cotton-Wool Plaques Cerebellum 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_711_END_INCLUDE_IMAGE_
Cotton Wool Plaques PS1 mutation Cotton Wool Plaques PS1 mutation 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_712_END_INCLUDE_IMAGE_
Hippocampus silver stain Hippocampus silver stain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_713_END_INCLUDE_IMAGE_
Hippocampus silver stain x200 Hippocampus silver stain x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_714_END_INCLUDE_IMAGE_
Insular Tau cotton Wool Plaque. Insular Tau cotton Wool Plaque. High Power 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_715_END_INCLUDE_IMAGE_
Occipital cortex Silver x100 Occipital cortex Silver x100 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_716_END_INCLUDE_IMAGE_
PS1-AD PS1-AD 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_717_END_INCLUDE_IMAGE_
PS1 BAMihc PS1 BAMihc 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_718_END_INCLUDE_IMAGE_
Severe AD Dorsal Brain Severe AD Dorsal Brain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_719_END_INCLUDE_IMAGE_
Surgical BX Ubiquitin IHC early Surgical BX Ubiquitin IHC early AD 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_720_END_INCLUDE_IMAGE_
Tau 10x Tau 10x 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_721_END_INCLUDE_IMAGE_
Tau 20x Tau 20x 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_722_END_INCLUDE_IMAGE_
ALS anterior horn cells ubiquiti ALS anterior horn cells ubiquitin UHC x100 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_723_END_INCLUDE_IMAGE_
ALS anterior horn cells ubiquiti ALS anterior horn cells ubiquitin UHC x200 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_724_END_INCLUDE_IMAGE_
ALS Ventral Spinal Cord ALS Ventral Spinal Cord 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_725_END_INCLUDE_IMAGE_
Kugelberg Welander Transverse Sp Kugelberg Welander Transverse Spinal Cord 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_726_END_INCLUDE_IMAGE_
Kugelberg Welander Ventral Spina Kugelberg Welander Ventral Spinal Cord 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_727_END_INCLUDE_IMAGE_
FTLD-Udentate Ubiq IHC FTLD-Udentate Ubiq IHC 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_728_END_INCLUDE_IMAGE_
FTLD Coronal Hemisphere FTLD Coronal Hemisphere 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_729_END_INCLUDE_IMAGE_
FTLD Lateral FTLD Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_730_END_INCLUDE_IMAGE_
FTLD Medial Temporal Close UP FTLD Medial Temporal Close UP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_731_END_INCLUDE_IMAGE_
Hered Dyspasic Dementia Coronal Hered Dyspasic Dementia Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_732_END_INCLUDE_IMAGE_
Pick Disease Ventral Brain Pick Disease Ventral Brain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_733_END_INCLUDE_IMAGE_
Posterior Lobar Atrophy Lateral Posterior Lobar Atrophy Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_734_END_INCLUDE_IMAGE_
Binswanger Frontal Pole Binswanger Frontal Pole 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_735_END_INCLUDE_IMAGE_
Cerebellar Degeneration Cerebellar Degeneration 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_736_END_INCLUDE_IMAGE_
Fredreich Ataxia Spinal Cord Who Fredreich Ataxia Spinal Cord Whole Mount Myelin 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_737_END_INCLUDE_IMAGE_
Hereditary Diffuse Leukoencephal Hereditary Diffuse Leukoencephalopathy Speroids Coronal Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_738_END_INCLUDE_IMAGE_
Huntington With Control Coronal Huntington With Control Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_739_END_INCLUDE_IMAGE_
Huntington Coronal Grade IV Huntington Coronal Grade IV 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_740_END_INCLUDE_IMAGE_
OPCA Multiple Sections OPCA Multiple Sections 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_741_END_INCLUDE_IMAGE_
SCA cerebellar Folia H&E SCA cerebellar Folia H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_742_END_INCLUDE_IMAGE_
amygdala synuclein IHC amygdala synuclein IHC 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_743_END_INCLUDE_IMAGE_
CBGD Coronal CBGD Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_744_END_INCLUDE_IMAGE_
Classic LB x600 Classic LB x600 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_745_END_INCLUDE_IMAGE_
Dentate nucleus grumose change Dentate nucleus grumose change 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_746_END_INCLUDE_IMAGE_
Extraneuronal LBs x600 Extraneuronal LBs x600 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_747_END_INCLUDE_IMAGE_
GCIs Dentate Syn GCIs Dentate Syn 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_748_END_INCLUDE_IMAGE_
Lewy Body x600 Lewy Body x600 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_749_END_INCLUDE_IMAGE_
Lewy Body Substantia Nigra H&E Lewy Body Substantia Nigra H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_750_END_INCLUDE_IMAGE_
MSA-C Ventral Brain MSA-C Ventral Brain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_751_END_INCLUDE_IMAGE_
MSA Inferior Olive Synuclein Hig MSA Inferior Olive Synuclein High Power 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_752_END_INCLUDE_IMAGE_
Pleomorphic LB x600 Pleomorphic LB x600 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_753_END_INCLUDE_IMAGE_
PSP-dentate PSP-dentate 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_754_END_INCLUDE_IMAGE_
PSP-SN PSP-SN 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_755_END_INCLUDE_IMAGE_
PSP Coronal Subthalamic PSP Coronal Subthalamic 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_756_END_INCLUDE_IMAGE_
PSP Globose NFT Substantia Nigra PSP Globose NFT Substantia Nigra H&E 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_757_END_INCLUDE_IMAGE_
Striatonigral Degeneration Putam Striatonigral Degeneration Putamen Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_758_END_INCLUDE_IMAGE_
Substantia Nigra PD and Control Substantia Nigra PD and Control 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_759_END_INCLUDE_IMAGE_
Subthalamic NFT in PSP Subthalamic NFT in PSP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_760_END_INCLUDE_IMAGE_
Thalamotomy for Parkinson Diseas Thalamotomy for Parkinson Disease 1976 Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_761_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Coronal Agenesis Corpus Callosum Coronal Brain 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_762_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Coronal Agenesis Corpus Callosum Coronal Neonatal Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_763_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Lateral Agenesis Corpus Callosum Lateral 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_764_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Lateral Agenesis Corpus Callosum Lateral Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_765_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Sagitta Agenesis Corpus Callosum Sagittal2 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_766_END_INCLUDE_IMAGE_
Agenesis Corpus Callosum Sagitta Agenesis Corpus Callosum Sagittal Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_767_END_INCLUDE_IMAGE_
Probst Bundle Coronal Close Up Probst Bundle Coronal Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_768_END_INCLUDE_IMAGE_
amygdala Corp Amylacea HP amygdala Corp Amylacea HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_769_END_INCLUDE_IMAGE_
Amygdala Corpora Amylacea Amygdala Corpora Amylacea 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_770_END_INCLUDE_IMAGE_
Endplate Sclerosis Endplate Sclerosis 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_771_END_INCLUDE_IMAGE_
Palmini 1a Palmini 1a 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_772_END_INCLUDE_IMAGE_
Palmini 1b Palmini 1b 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_773_END_INCLUDE_IMAGE_
Palmini 1b HP Palmini 1b HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_774_END_INCLUDE_IMAGE_
Palmini 2a Palmini 2a 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_775_END_INCLUDE_IMAGE_
Palmini 2a HP Palmini 2a HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_776_END_INCLUDE_IMAGE_
Palmini 2b Palmini 2b 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_777_END_INCLUDE_IMAGE_
Palmini 2b HP Palmini 2b HP 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_778_END_INCLUDE_IMAGE_
White Matter Neurons White Matter Neurons 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_779_END_INCLUDE_IMAGE_
White Matter Neurons NFihc White Matter Neurons NFihc 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_780_END_INCLUDE_IMAGE_
Cyclopia Holoprosencephaly Cyclopia Holoprosencephaly 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_781_END_INCLUDE_IMAGE_
Holoprosencephaly Coronal Holoprosencephaly Coronal 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_782_END_INCLUDE_IMAGE_
Holoprosencephaly Dorsal Floatin Holoprosencephaly Dorsal Floating 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_783_END_INCLUDE_IMAGE_
Holoprosencephaly Ventral Close Holoprosencephaly Ventral Close Up Trisomy 13 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_784_END_INCLUDE_IMAGE_
Holoprosencephaly Ventralwith Du Holoprosencephaly Ventralwith Dura 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_785_END_INCLUDE_IMAGE_
Olfactory Agenesis Ventral Close Olfactory Agenesis Ventral Close Up 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_786_END_INCLUDE_IMAGE_
Neuronal Ceroid Lipofuscinosis V Neuronal Ceroid Lipofuscinosis Vacuolated Lymphocytes EM 13/09/2008 @ 9:09 gliageek _INCLUDE_IMAGE_787_END_INCLUDE_IMAGE_
Tay Sachs Cerebellum Coronals Tay Sachs Cerebellum Coronals 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_788_END_INCLUDE_IMAGE_
Bilateral Perisylvian Ulegyria W Bilateral Perisylvian Ulegyria With PV Nodular Heterotopias 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_789_END_INCLUDE_IMAGE_
Pachygyria Coronal Pachygyria Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_790_END_INCLUDE_IMAGE_
Periventricular Nodular Heteroto Periventricular Nodular Heterotopia 2 Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_791_END_INCLUDE_IMAGE_
Poly Gyria Dorsal Poly Gyria Dorsal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_792_END_INCLUDE_IMAGE_
Polymicrogyria Coronal Polymicrogyria Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_793_END_INCLUDE_IMAGE_
Walker Warburg Coronal Walker Warburg Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_794_END_INCLUDE_IMAGE_
Zonal Heterotop Coronal Zonal Heterotop Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_795_END_INCLUDE_IMAGE_
Atax Telangiectasia Vermis Sagit Atax Telangiectasia Vermis Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_796_END_INCLUDE_IMAGE_
Dandy-Walker Posterior Close Up Dandy-Walker Posterior Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_797_END_INCLUDE_IMAGE_
Dandy-Walker Whole Mount Myelin Dandy-Walker Whole Mount Myelin 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_798_END_INCLUDE_IMAGE_
Dandy Walker Cyst Dorsal Dandy Walker Cyst Dorsal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_799_END_INCLUDE_IMAGE_
Ecchordosis Physalifera Ecchordosis Physalifera 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_800_END_INCLUDE_IMAGE_
Ischemic Micrenceohaly Lateral Ischemic Micrenceohaly Lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_801_END_INCLUDE_IMAGE_
Lipoma Corpus Callosum Coronal Lipoma Corpus Callosum Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_802_END_INCLUDE_IMAGE_
Lipoma Tuber Cinerum Lipoma Tuber Cinerum 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_803_END_INCLUDE_IMAGE_
Posterior Fossa Arachnoid Cyst S Posterior Fossa Arachnoid Cyst Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_804_END_INCLUDE_IMAGE_
Split Cord Malformation Dorsal Split Cord Malformation Dorsal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_805_END_INCLUDE_IMAGE_
Temporal Lobe Arachnoid Cyst Ven Temporal Lobe Arachnoid Cyst Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_806_END_INCLUDE_IMAGE_
Laminar And WM Necrosis Mitichon Laminar And WM Necrosis Mitichondrial Encephalopathy coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_807_END_INCLUDE_IMAGE_
Leigh BG coronal Leigh BG coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_808_END_INCLUDE_IMAGE_
Leigh Midbrain Transverse Leigh Midbrain Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_809_END_INCLUDE_IMAGE_
Leigh Subthalamic Coronal Leigh Subthalamic Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_810_END_INCLUDE_IMAGE_
Medulla Mitochondrial Encephalop Medulla Mitochondrial Encephalopathy 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_811_END_INCLUDE_IMAGE_
Cerebral Tuber Lateral Cerebral Tuber Lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_812_END_INCLUDE_IMAGE_
Cortical Tuber Cortical Tuber 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_813_END_INCLUDE_IMAGE_
Neurocutaneous Melanosis Ventral Neurocutaneous Melanosis Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_814_END_INCLUDE_IMAGE_
Neurocutaneous Melanosis Ventral Neurocutaneous Melanosis Ventral Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_815_END_INCLUDE_IMAGE_
Tuber Tuber 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_816_END_INCLUDE_IMAGE_
Tuberous Sclerosis SEGA and Nodu Tuberous Sclerosis SEGA and Nodules 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_817_END_INCLUDE_IMAGE_
Anencephaly Lateral Anencephaly Lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_818_END_INCLUDE_IMAGE_
Anencephaly Dorsal Anencephaly Dorsal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_819_END_INCLUDE_IMAGE_
Chiari Dorsal Brain Stem Chiari Dorsal Brain Stem 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_820_END_INCLUDE_IMAGE_
Chiari II Cord & Post Fossa Chiari II Cord & Post Fossa 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_821_END_INCLUDE_IMAGE_
Chiari II full Legnth Chiari II full Legnth 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_822_END_INCLUDE_IMAGE_
Chiari Mid Sagittal Adult Chiari Mid Sagittal Adult 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_823_END_INCLUDE_IMAGE_
Chiari Ventral Brain Stem Chiari Ventral Brain Stem 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_824_END_INCLUDE_IMAGE_
Cranio Rachiscisis Dorsal Body Cranio Rachiscisis Dorsal Body 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_825_END_INCLUDE_IMAGE_
CRtotalis XRAY CRtotalis XRAY 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_826_END_INCLUDE_IMAGE_
Encephalocele Occipital Ventral Encephalocele Occipital Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_827_END_INCLUDE_IMAGE_
Inenecephaly Inenecephaly 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_828_END_INCLUDE_IMAGE_
Lochenshadel Lochenshadel 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_829_END_INCLUDE_IMAGE_
Placode Dissected Placode Dissected 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_830_END_INCLUDE_IMAGE_
Acute Meningitis Base Acute Meningitis Base 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_831_END_INCLUDE_IMAGE_
Basilar Meningitis Basilar Meningitis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_832_END_INCLUDE_IMAGE_
Postoperative Spinal Meningitis Postoperative Spinal Meningitis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_833_END_INCLUDE_IMAGE_
Brain Abscess Coronal Close Up Brain Abscess Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_834_END_INCLUDE_IMAGE_
Multiple Brain Abscesses Lateral Multiple Brain Abscesses Lateral Surface 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_835_END_INCLUDE_IMAGE_
Nocardia Kinyon Nocardia Kinyon 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_836_END_INCLUDE_IMAGE_
Occipial Lobe Abscess Coronal Occipial Lobe Abscess Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_837_END_INCLUDE_IMAGE_
Steril Abscess Thalamus Horizont Steril Abscess Thalamus Horizontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_838_END_INCLUDE_IMAGE_
Subdural Empyema In Situ Subdural Empyema In Situ 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_839_END_INCLUDE_IMAGE_
Congenital Syphilis Base Congenital Syphilis Base 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_840_END_INCLUDE_IMAGE_
General Paresis Base General Paresis Base 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_841_END_INCLUDE_IMAGE_
Chronic Meningitis Obstructing C Chronic Meningitis Obstructing CSF outflow Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_842_END_INCLUDE_IMAGE_
Potts Disease Potts Disease 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_843_END_INCLUDE_IMAGE_
Tuberculoma Medulla Transverse Tuberculoma Medulla Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_844_END_INCLUDE_IMAGE_
Tuberculous Meningitis Base Tuberculous Meningitis Base 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_845_END_INCLUDE_IMAGE_
Tuberculous Meningitis Coronal Tuberculous Meningitis Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_846_END_INCLUDE_IMAGE_
Tuberculous Spinal Meningitis Tuberculous Spinal Meningitis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_847_END_INCLUDE_IMAGE_
Aspergillosis Coronal Close Up Aspergillosis Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_848_END_INCLUDE_IMAGE_
Aspergillosis Coronal Frontal Aspergillosis Coronal Frontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_849_END_INCLUDE_IMAGE_
Aspergillus Bx Aspergillus Bx 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_850_END_INCLUDE_IMAGE_
Aspergillus Bx HP Aspergillus Bx HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_851_END_INCLUDE_IMAGE_
Candida Coronal Whole Mount PAS Candida Coronal Whole Mount PAS 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_852_END_INCLUDE_IMAGE_
Neonatal Candida Coronal Neonatal Candida Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_853_END_INCLUDE_IMAGE_
Coccidio Cerebel LP Coccidio Cerebel LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_854_END_INCLUDE_IMAGE_
Coccidio Cranial Nerve Coccidio Cranial Nerve 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_855_END_INCLUDE_IMAGE_
Coccidiodes Meningitis H&E Coccidiodes Meningitis H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_856_END_INCLUDE_IMAGE_
Cryptococcoma Cerebellar Peduncl Cryptococcoma Cerebellar Peduncle Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_857_END_INCLUDE_IMAGE_
Cryptococcus HP Cryptococcus HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_858_END_INCLUDE_IMAGE_
Crypto Men Crypto Men 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_859_END_INCLUDE_IMAGE_
Histoplasmoma H&E Histoplasmoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_860_END_INCLUDE_IMAGE_
Mucor Coronal Mucor Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_861_END_INCLUDE_IMAGE_
Mucor Ventral Mucor Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_862_END_INCLUDE_IMAGE_
Phaeohyphomycosis Base Phaeohyphomycosis Base 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_863_END_INCLUDE_IMAGE_
Phaeohyphomycosis Hemi Coronal Phaeohyphomycosis Hemi Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_864_END_INCLUDE_IMAGE_
Phaeohyphomycosis Lateral Phaeohyphomycosis Lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_865_END_INCLUDE_IMAGE_
Phaeomycosis GMS x600 Phaeomycosis GMS x600 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_866_END_INCLUDE_IMAGE_
Phaeomycosis H&E LP Phaeomycosis H&E LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_867_END_INCLUDE_IMAGE_
Phaeomycosis H&E HP Phaeomycosis H&E HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_868_END_INCLUDE_IMAGE_
Phaeomycosis PAS x100 Phaeomycosis PAS x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_869_END_INCLUDE_IMAGE_
Acanthameba Coronal Close Up Acanthameba Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_870_END_INCLUDE_IMAGE_
Cysticerc HP Cysticerc HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_871_END_INCLUDE_IMAGE_
Cysticerc LP Cysticerc LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_872_END_INCLUDE_IMAGE_
Cysticercosis Coronal Cysticercosis Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_873_END_INCLUDE_IMAGE_
Cysticercosis H&E Low Power Cysticercosis H&E Low Power 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_874_END_INCLUDE_IMAGE_
Cysticercosis Horizontal Close U Cysticercosis Horizontal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_875_END_INCLUDE_IMAGE_
Cysticercosis Surface Close Up Cysticercosis Surface Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_876_END_INCLUDE_IMAGE_
Cysticercosis Surgical Cysticercosis Surgical 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_877_END_INCLUDE_IMAGE_
Cysticercosis Surgical Hemisecti Cysticercosis Surgical Hemisection 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_878_END_INCLUDE_IMAGE_
Echinococcal Cyst Temporal Coron Echinococcal Cyst Temporal Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_879_END_INCLUDE_IMAGE_
Toxoplasmosis Coronal Toxoplasmosis Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_880_END_INCLUDE_IMAGE_
Toxoplasmosis Temporal Lobe Toxoplasmosis Temporal Lobe 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_881_END_INCLUDE_IMAGE_
Gerstmann Straussler Hippocampus Gerstmann Straussler Hippocampus Close Up H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_882_END_INCLUDE_IMAGE_
GSS cerebellum GSS cerebellum 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_883_END_INCLUDE_IMAGE_
GSS HC HP GSS HC HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_884_END_INCLUDE_IMAGE_
GSS hippocampus LP GSS hippocampus LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_885_END_INCLUDE_IMAGE_
JCD cerebellum IHC x100 JCD cerebellum IHC x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_886_END_INCLUDE_IMAGE_
JCD cerebellum x200 JCD cerebellum x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_887_END_INCLUDE_IMAGE_
JCD occipital IHC x200 JCD occipital IHC x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_888_END_INCLUDE_IMAGE_
JCD occipital IHC x40 JCD occipital IHC x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_889_END_INCLUDE_IMAGE_
JCD occipital x200 JCD occipital x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_890_END_INCLUDE_IMAGE_
JCD occipital x40 JCD occipital x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_891_END_INCLUDE_IMAGE_
Prion Cerebral Biopsy H&E Prion Cerebral Biopsy H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_892_END_INCLUDE_IMAGE_
Prion IHC cerebellum Prion IHC cerebellum 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_893_END_INCLUDE_IMAGE_
Prion IHC cerebellum 2 Prion IHC cerebellum 2 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_894_END_INCLUDE_IMAGE_
Prion IHC cerebrum Prion IHC cerebrum 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_895_END_INCLUDE_IMAGE_
Prion MM1 cerebellum Prion MM1 cerebellum 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_896_END_INCLUDE_IMAGE_
Prion VV2 Cerebellum Sagittal wi Prion VV2 Cerebellum Sagittal with Control 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_897_END_INCLUDE_IMAGE_
Type 2 prion Cerebellum IHC Type 2 prion Cerebellum IHC 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_898_END_INCLUDE_IMAGE_
Prion Florid Plaque x40 Prion Florid Plaque x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_899_END_INCLUDE_IMAGE_
Prion IHC florid plaque Prion IHC florid plaque 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_900_END_INCLUDE_IMAGE_
vCJD cerebral cortex immuno x100 vCJD cerebral cortex immuno x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_901_END_INCLUDE_IMAGE_
vJCD vJCD 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_902_END_INCLUDE_IMAGE_
Granulomatous Meningitis H&E Granulomatous Meningitis H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_903_END_INCLUDE_IMAGE_
Perivascular Granuloma H&E Perivascular Granuloma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_904_END_INCLUDE_IMAGE_
Sarcoid Coronal Sarcoid Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_905_END_INCLUDE_IMAGE_
Sarcoid Ventral Close Up Sarcoid Ventral Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_906_END_INCLUDE_IMAGE_
Congenital Cytomegalovirus Later Congenital Cytomegalovirus Lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_907_END_INCLUDE_IMAGE_
Congenital Cytomegalovirus Multi Congenital Cytomegalovirus Multiple Coronals 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_908_END_INCLUDE_IMAGE_
Cytomegalovirus Coronal Cytomegalovirus Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_909_END_INCLUDE_IMAGE_
HIV encephalopathy H&E HIV encephalopathy H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_910_END_INCLUDE_IMAGE_
HIV encephalopathy p24 IHC HIV encephalopathy p24 IHC 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_911_END_INCLUDE_IMAGE_
Herpes Simplex Encephalitis Cing Herpes Simplex Encephalitis Cingulate Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_912_END_INCLUDE_IMAGE_
Herpes Simplex Encephalitis Temp Herpes Simplex Encephalitis Temporal Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_913_END_INCLUDE_IMAGE_
Herpes Simplex Encephalitis Vent Herpes Simplex Encephalitis Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_914_END_INCLUDE_IMAGE_
JC virus ISH JC virus ISH 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_915_END_INCLUDE_IMAGE_
PML-infected astrocyte x600 PML-infected astrocyte x600 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_916_END_INCLUDE_IMAGE_
PML-infected oligodendroglial ce PML-infected oligodendroglial cell x600 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_917_END_INCLUDE_IMAGE_
PML1 PML1 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_918_END_INCLUDE_IMAGE_
PML inclusions PML inclusions 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_919_END_INCLUDE_IMAGE_
PML x100 PML x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_920_END_INCLUDE_IMAGE_
PML x400 PML x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_921_END_INCLUDE_IMAGE_
Progressive Multifocal Leukoence Progressive Multifocal Leukoencephalopathy H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_922_END_INCLUDE_IMAGE_
Progressive Multifocal Leukoence Progressive Multifocal Leukoencephalopathy Horizontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_923_END_INCLUDE_IMAGE_
Progressive Multifocal Leukoence Progressive Multifocal Leukoencephalopathy JCV immuno 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_924_END_INCLUDE_IMAGE_
Progressive Multifocal Leukoence Progressive Multifocal Leukoencephalopathy Whole Mount 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_925_END_INCLUDE_IMAGE_
Cord wnv Cord wnv 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_926_END_INCLUDE_IMAGE_
Thal WNV Thal WNV 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_927_END_INCLUDE_IMAGE_
Adrenoleukodystrophy Horizontal Adrenoleukodystrophy Horizontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_928_END_INCLUDE_IMAGE_
Alexander Coronal Close Up Alexander Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_929_END_INCLUDE_IMAGE_
Cockayne Ventral Cockayne Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_930_END_INCLUDE_IMAGE_
Cockayne Multiple Coronals Cockayne Multiple Coronals 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_931_END_INCLUDE_IMAGE_
Krabbe H&E Krabbe H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_932_END_INCLUDE_IMAGE_
Krabbe Sparring U Fibers Coronal Krabbe Sparring U Fibers Coronal Close up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_933_END_INCLUDE_IMAGE_
Krabbe Ventral Krabbe Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_934_END_INCLUDE_IMAGE_
Krabbe x100 Krabbe x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_935_END_INCLUDE_IMAGE_
Pelizaeus Merzbacher Coronal Clo Pelizaeus Merzbacher Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_936_END_INCLUDE_IMAGE_
VWMD chromatolysis VWMD chromatolysis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_937_END_INCLUDE_IMAGE_
VWMD spheroids VWMD spheroids 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_938_END_INCLUDE_IMAGE_
VWMD x200 VWMD x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_939_END_INCLUDE_IMAGE_
VWMD x40 VWMD x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_940_END_INCLUDE_IMAGE_
VWMD Sagittal VWMD Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_941_END_INCLUDE_IMAGE_
VWMD Thalamus VWMD Thalamus 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_942_END_INCLUDE_IMAGE_
Astrocyte pleomorphism in TLDL Astrocyte pleomorphism in TLDL 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_943_END_INCLUDE_IMAGE_
Central Pontine Myelinlysis Central Pontine Myelinlysis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_944_END_INCLUDE_IMAGE_
Creutz Cell Creutz Cell 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_945_END_INCLUDE_IMAGE_
Leigh BG coronal Leigh BG coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_946_END_INCLUDE_IMAGE_
Leigh Midbrain Transverse Leigh Midbrain Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_947_END_INCLUDE_IMAGE_
Machiafava Bignami Coronal Machiafava Bignami Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_948_END_INCLUDE_IMAGE_
TLDL smear TLDL smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_949_END_INCLUDE_IMAGE_
tldl-lp tldl-lp 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_950_END_INCLUDE_IMAGE_
TLDL creutzfeldt cell TLDL creutzfeldt cell 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_951_END_INCLUDE_IMAGE_
TLDL edge H&E TLDL edge H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_952_END_INCLUDE_IMAGE_
TLDL perivascular inflammation TLDL perivascular inflammation 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_953_END_INCLUDE_IMAGE_
TLDL CD68 IHC TLDL CD68 IHC 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_954_END_INCLUDE_IMAGE_
TLDL GFAP TLDL GFAP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_955_END_INCLUDE_IMAGE_
TLDL HP TLDL HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_956_END_INCLUDE_IMAGE_
TLDL Smear TLDL Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_957_END_INCLUDE_IMAGE_
MS Cervical Cord Multiple Sclerosis in the Cervical Cord 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_958_END_INCLUDE_IMAGE_
MS mid sag Multiple Sclerosis, mid-sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_959_END_INCLUDE_IMAGE_
Multiple Sclerosis Multiple Sclerosis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_960_END_INCLUDE_IMAGE_
bsplaque bsplaque 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_961_END_INCLUDE_IMAGE_
Demyelination EM Demyelination EM 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_962_END_INCLUDE_IMAGE_
Hurst001 Hurst001 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_963_END_INCLUDE_IMAGE_
MS pons Close MS pons Close 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_964_END_INCLUDE_IMAGE_
MS post PV MS post PV 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_965_END_INCLUDE_IMAGE_
Optic Neuritis x400 Optic Neuritis x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_966_END_INCLUDE_IMAGE_
Optic Neuritis x100 Optic Neuritis x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_967_END_INCLUDE_IMAGE_
Optic Neuritis x200 Optic Neuritis x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_968_END_INCLUDE_IMAGE_
Perivent Plaque Perivent Plaque 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_969_END_INCLUDE_IMAGE_
Perivent Plaque CD68 IHC Perivent Plaque CD68 IHC 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_970_END_INCLUDE_IMAGE_
Zerkin Zerkin 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_971_END_INCLUDE_IMAGE_
CCD ATPase CCD ATPase 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_972_END_INCLUDE_IMAGE_
CCD COX CCD COX 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_973_END_INCLUDE_IMAGE_
CCD NADH CCD NADH 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_974_END_INCLUDE_IMAGE_
CNM Paraffin x200 CNM Paraffin x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_975_END_INCLUDE_IMAGE_
hyaline inclusions trichrome x20 hyaline inclusions trichrome x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_976_END_INCLUDE_IMAGE_
Nemaline Trichrome x400 Nemaline Trichrome x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_977_END_INCLUDE_IMAGE_
Tub Agg NADH x400 Tub Agg NADH x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_978_END_INCLUDE_IMAGE_
Tub Agg Trichrome x400 Tub Agg Trichrome x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_979_END_INCLUDE_IMAGE_
Tubular Aggregates Tubular Aggregates 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_980_END_INCLUDE_IMAGE_
Target fibers NADH Target fibers NADH 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_981_END_INCLUDE_IMAGE_
Diabetic thigh infarct x200 Diabetic thigh infarct x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_982_END_INCLUDE_IMAGE_
Congenital muscular dystrophy x2 Congenital muscular dystrophy x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_983_END_INCLUDE_IMAGE_
LGMD inflamm x100 LGMD inflamm x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_984_END_INCLUDE_IMAGE_
myofibrillary myopathy x100 myofibrillary myopathy x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_985_END_INCLUDE_IMAGE_
Rhabdomyolysis x400 Rhabdomyolysis x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_986_END_INCLUDE_IMAGE_
Ringbinden Ringbinden 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_987_END_INCLUDE_IMAGE_
Ring NADH Ring NADH 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_988_END_INCLUDE_IMAGE_
Ring Tri Ring Tri 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_989_END_INCLUDE_IMAGE_
Titinopathy paraffin x200 Titinopathy paraffin x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_990_END_INCLUDE_IMAGE_
IBM trichrome IBM trichrome 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_991_END_INCLUDE_IMAGE_
IBM tricrome HP IBM tricrome HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_992_END_INCLUDE_IMAGE_
Inclusion body myositis SMI-31 n Inclusion body myositis SMI-31 nuclear x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_993_END_INCLUDE_IMAGE_
Inclusion body myositis SMI-31 x Inclusion body myositis SMI-31 x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_994_END_INCLUDE_IMAGE_
Inclusion body myositis SMI-31 x Inclusion body myositis SMI-31 x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_995_END_INCLUDE_IMAGE_
Inclusion body myositis trichrom Inclusion body myositis trichrome x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_996_END_INCLUDE_IMAGE_
Inclusion body myositis trichrom Inclusion body myositis trichrome x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_997_END_INCLUDE_IMAGE_
Inclusion body myositis x200 Inclusion body myositis x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_998_END_INCLUDE_IMAGE_
Inclusion body myositis x400 Inclusion body myositis x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_999_END_INCLUDE_IMAGE_
Trichrome IBM hp Trichrome IBM hp 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1000_END_INCLUDE_IMAGE_
Churg-Strauss x200 Churg-Strauss x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1001_END_INCLUDE_IMAGE_
Churg strauss x100 Churg strauss x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1002_END_INCLUDE_IMAGE_
Churg Strauss x40 Churg Strauss x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1003_END_INCLUDE_IMAGE_
Dermatomyositis in lymphoma pati Dermatomyositis in lymphoma patient x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1004_END_INCLUDE_IMAGE_
Myositis in lymphoma patient x20 Myositis in lymphoma patient x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1005_END_INCLUDE_IMAGE_
Paraneo DM Paraneo DM 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1006_END_INCLUDE_IMAGE_
Paraneo Myositis Paraffin Paraneo Myositis Paraffin 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1007_END_INCLUDE_IMAGE_
Paraneoplastic Myositis Paraneoplastic Myositis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1008_END_INCLUDE_IMAGE_
Perivascular infiltrate x200 Perivascular infiltrate x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1009_END_INCLUDE_IMAGE_
Perivascular infiltrate x400 Perivascular infiltrate x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1010_END_INCLUDE_IMAGE_
Polymyositis Polymyositis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1011_END_INCLUDE_IMAGE_
Mitochondrial Inclusions Mitochondrial Inclusions 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1012_END_INCLUDE_IMAGE_
Diabetic sural x200 Diabetic sural x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1013_END_INCLUDE_IMAGE_
Diabetic Sural x600 Diabetic Sural x600 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1014_END_INCLUDE_IMAGE_
HSMN x200 resin HSMN x200 resin 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1015_END_INCLUDE_IMAGE_
HSMN x400 resin HSMN x400 resin 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1016_END_INCLUDE_IMAGE_
HSMN x600 HSMN x600 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1017_END_INCLUDE_IMAGE_
polyarteritis nodosa sural nerve polyarteritis nodosa sural nerve resin x100 sural 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1018_END_INCLUDE_IMAGE_
polyarteritis nodosa sural nerve polyarteritis nodosa sural nerve resin x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1019_END_INCLUDE_IMAGE_
Danon Danon 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1020_END_INCLUDE_IMAGE_
Danon003 Danon003 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1021_END_INCLUDE_IMAGE_
Danon 10k002 Danon 10k002 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1022_END_INCLUDE_IMAGE_
Danon12k001 Danon12k001 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1023_END_INCLUDE_IMAGE_
Danon Gom Tri Danon Gom Tri 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1024_END_INCLUDE_IMAGE_
Danon PAS Danon PAS 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1025_END_INCLUDE_IMAGE_
Anterior Commissure Coronal Anterior Commissure Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1026_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close Basal Ganglia Coronal Close 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1027_END_INCLUDE_IMAGE_
Frontal Coronal Frontal Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1028_END_INCLUDE_IMAGE_
Hippocampus Coronal Hippocampus Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1029_END_INCLUDE_IMAGE_
Occipital Coronal Occipital Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1030_END_INCLUDE_IMAGE_
Parietal Coronal Parietal Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1031_END_INCLUDE_IMAGE_
Pons Cerebellum Transverse Pons Cerebellum Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1032_END_INCLUDE_IMAGE_
Posterior Commissure Coronal Posterior Commissure Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1033_END_INCLUDE_IMAGE_
Posterior Fossa Sagittal Posterior Fossa Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1034_END_INCLUDE_IMAGE_
Sagittal Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1035_END_INCLUDE_IMAGE_
Swiss Cheese Coronal Multiple Swiss Cheese Coronal Multiple 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1036_END_INCLUDE_IMAGE_
Thalamus Coronal Close Up Thalamus Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1037_END_INCLUDE_IMAGE_
Thalamus Coronal Thalamus Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1038_END_INCLUDE_IMAGE_
Velum interpositum x100 Velum interpositum x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1039_END_INCLUDE_IMAGE_
Velum interpositum x40 Velum interpositum x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1040_END_INCLUDE_IMAGE_
Germ Matrix Hem HE Germ Matrix Hem HE 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1041_END_INCLUDE_IMAGE_
Intraventricular Hem Coronal Intraventricular Hem Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1042_END_INCLUDE_IMAGE_
Intraventricular Hemorrhage coro Intraventricular Hemorrhage coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1043_END_INCLUDE_IMAGE_
Intraventricular Hemorrhage vent Intraventricular Hemorrhage ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1044_END_INCLUDE_IMAGE_
IVH Ventral IVH Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1045_END_INCLUDE_IMAGE_
Massive Hydrocephalus Post IVH Massive Hydrocephalus Post IVH 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1046_END_INCLUDE_IMAGE_
Periventricular Hemorrhagic Infa Periventricular Hemorrhagic Infarct 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1047_END_INCLUDE_IMAGE_
Post IVH hydrocephalus Coronal Post IVH hydrocephalus Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1048_END_INCLUDE_IMAGE_
Subependymal hemorrhage Subependymal hemorrhage 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1049_END_INCLUDE_IMAGE_
Cerebellar Necrosis Abruption Cerebellar Necrosis Abruption 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1050_END_INCLUDE_IMAGE_
Hydranencephaly Ventral Hydranencephaly Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1051_END_INCLUDE_IMAGE_
Polygyria Polygyria 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1052_END_INCLUDE_IMAGE_
polymicrogyria cresyl violet LP polymicrogyria cresyl violet LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1053_END_INCLUDE_IMAGE_
MCE whole mount MCE whole mount 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1054_END_INCLUDE_IMAGE_
Multicystic Encephalopathy Brain Multicystic Encephalopathy Brainstem 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1055_END_INCLUDE_IMAGE_
Multicystic Encephalopathy Coron Multicystic Encephalopathy Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1056_END_INCLUDE_IMAGE_
Multicystic Encephalopathy Horiz Multicystic Encephalopathy Horizontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1057_END_INCLUDE_IMAGE_
Multicystic Encephalopathy In Si Multicystic Encephalopathy In Situ 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1058_END_INCLUDE_IMAGE_
Status Marmoratuswith MCE Status Marmoratuswith MCE 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1059_END_INCLUDE_IMAGE_
Acute Brainstem Necrosis HE Acute Brainstem Necrosis HE 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1060_END_INCLUDE_IMAGE_
Hypotensive brainstem necrosis Hypotensive brainstem necrosis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1061_END_INCLUDE_IMAGE_
Hypotensive Brainstem Necrosis Hypotensive Brainstem Necrosis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1062_END_INCLUDE_IMAGE_
Intrauterine Infarct Coronal Intrauterine Infarct Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1063_END_INCLUDE_IMAGE_
Mineralized neurons H&E Mineralized neurons H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1064_END_INCLUDE_IMAGE_
Organizing Brainstem Necrosis Organizing Brainstem Necrosis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1065_END_INCLUDE_IMAGE_
Organizing PVL H&E Organizing PVL H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1066_END_INCLUDE_IMAGE_
Ulegyria Ulegyria 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1067_END_INCLUDE_IMAGE_
Unilateral Hemorrhagic Necrosis Unilateral Hemorrhagic Necrosis 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1068_END_INCLUDE_IMAGE_
Hemorrhagic PVL coronal Hemorrhagic PVL coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1069_END_INCLUDE_IMAGE_
Neonatal Brain microinjection Neonatal Brain microinjection 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1070_END_INCLUDE_IMAGE_
Periventricular Leukomalacia Wit Periventricular Leukomalacia With Cavitation 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1071_END_INCLUDE_IMAGE_
Periventricular Leukomalacia Wit Periventricular Leukomalacia With Cavitation Frontal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1072_END_INCLUDE_IMAGE_
Periventricular Leukomalacia Wit Periventricular Leukomalacia With Hemorrhage 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1073_END_INCLUDE_IMAGE_
Periventricular White Matter Inf Periventricular White Matter Infarcts Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1074_END_INCLUDE_IMAGE_
PVL coronal PVL coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1075_END_INCLUDE_IMAGE_
pvl mp pvl mp 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1076_END_INCLUDE_IMAGE_
PVL H&E HP PVL H&E HP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1077_END_INCLUDE_IMAGE_
PVL iron stain PVL iron stain 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1078_END_INCLUDE_IMAGE_
Neonatal porencephaly coronal Neonatal porencephaly coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1079_END_INCLUDE_IMAGE_
Neonatal porencephaly lateral Neonatal porencephaly lateral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1080_END_INCLUDE_IMAGE_
Porencephalywith Secondary Tract Porencephalywith Secondary Tract Degeneration 65 year-old 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1081_END_INCLUDE_IMAGE_
Porencephaly In Situ 65 year-old Porencephaly In Situ 65 year-old 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1082_END_INCLUDE_IMAGE_
Porencephaly Right Hemisphere 2 Porencephaly Right Hemisphere 2 65 year-old 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1083_END_INCLUDE_IMAGE_
Porencephaly Right Hemisphere In Porencephaly Right Hemisphere In Situ 65 year-old 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1084_END_INCLUDE_IMAGE_
Acute Lead Encephalopathy Dorsal Acute Lead Encephalopathy Dorsal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1085_END_INCLUDE_IMAGE_
Alcoholic Cerebellar Degeneratio Alcoholic Cerebellar Degeneration 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1086_END_INCLUDE_IMAGE_
Grinker Myelinopathy Grinker Myelinopathy 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1087_END_INCLUDE_IMAGE_
Grinker Myelinopathy Close Up Grinker Myelinopathy Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1088_END_INCLUDE_IMAGE_
Methanol Intoxication Coronal Methanol Intoxication Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1089_END_INCLUDE_IMAGE_
Radiation Radiation 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1090_END_INCLUDE_IMAGE_
Radiation Necrosis Coronal Radiation Necrosis Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1091_END_INCLUDE_IMAGE_
Radiation Necrosis Coronal 2 Radiation Necrosis Coronal 2 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1092_END_INCLUDE_IMAGE_
Acute Wernicke Midbrain Transver Acute Wernicke Midbrain Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1093_END_INCLUDE_IMAGE_
Chronic Wernicke Coronal Chronic Wernicke Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1094_END_INCLUDE_IMAGE_
Wernicke encephalopathy Pontine Wernicke encephalopathy Pontine Tegmentum H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1095_END_INCLUDE_IMAGE_
WKS MB x40 WKS MB x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1096_END_INCLUDE_IMAGE_
Anaplastic Astrocytoma Pencil Bu Anaplastic Astrocytoma Pencil Bundles H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1097_END_INCLUDE_IMAGE_
Brainstem Gliomain Spinal Cord T Brainstem Gliomain Spinal Cord Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1098_END_INCLUDE_IMAGE_
Brainstem Glioma Spinal Leptomen Brainstem Glioma Spinal Leptomeningeal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1099_END_INCLUDE_IMAGE_
Brainstem Glioma Transverse Brainstem Glioma Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1100_END_INCLUDE_IMAGE_
Brainstem Glioma Ventra Close Up Brainstem Glioma Ventra Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1101_END_INCLUDE_IMAGE_
Brainstem Glioma Ventral 2 Brainstem Glioma Ventral 2 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1102_END_INCLUDE_IMAGE_
IIIrd ventricular glioma x100 IIIrd ventricular glioma x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1103_END_INCLUDE_IMAGE_
IIIrd ventricular glioma x200 IIIrd ventricular glioma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1104_END_INCLUDE_IMAGE_
IIIrd ventricular glioma x400 IIIrd ventricular glioma x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1105_END_INCLUDE_IMAGE_
Infiltrating Glioma Thalmus NFih Infiltrating Glioma Thalmus NFihc x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1106_END_INCLUDE_IMAGE_
Inflitrating Glioma Thalamus x20 Inflitrating Glioma Thalamus x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1107_END_INCLUDE_IMAGE_
Tectal Glioma H&E Tectal Glioma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1108_END_INCLUDE_IMAGE_
Tectal Glioma Transverse Tectal Glioma Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1109_END_INCLUDE_IMAGE_
Thalamic Glioma Sagittal Thalamic Glioma Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1110_END_INCLUDE_IMAGE_
Gemistocytic Astrocytoma H&E Gemistocytic Astrocytoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1111_END_INCLUDE_IMAGE_
Cbllr GBM Cbllr GBM 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1112_END_INCLUDE_IMAGE_
Cblr Sec Struct Cblr Sec Struct 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1113_END_INCLUDE_IMAGE_
GBM Lm drop met Smear GBM Lm drop met Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1114_END_INCLUDE_IMAGE_
GBM spinal LM drop met GBM spinal LM drop met 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1115_END_INCLUDE_IMAGE_
Glioblastoma Coronal 2 Glioblastoma Coronal 2 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1116_END_INCLUDE_IMAGE_
Gliosarcoma x200 Gliosarcoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1117_END_INCLUDE_IMAGE_
Gliosarcoma x400 Gliosarcoma x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1118_END_INCLUDE_IMAGE_
Granular Cell GBM Smear Granular Cell GBM Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1119_END_INCLUDE_IMAGE_
Microvascular Proliferation H&E Microvascular Proliferation H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1120_END_INCLUDE_IMAGE_
Monstrocellular Glioblastoma Monstrocellular Glioblastoma 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1121_END_INCLUDE_IMAGE_
Small Cell GBM Small Cell GBM 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1122_END_INCLUDE_IMAGE_
Spinal Cord Glioblastoma Spinal Cord Glioblastoma 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1123_END_INCLUDE_IMAGE_
Spinal LMgbm Drop Met GFAP Spinal LMgbm Drop Met GFAP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1124_END_INCLUDE_IMAGE_
Lipoastrocytoma x100 Lipoastrocytoma x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1125_END_INCLUDE_IMAGE_
Lobar pilocytic astrocytoma x200 Lobar pilocytic astrocytoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1126_END_INCLUDE_IMAGE_
Lobar pilocytic astrocytoma x40 Lobar pilocytic astrocytoma x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1127_END_INCLUDE_IMAGE_
Optic Glioma Gross Optic Glioma Gross 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1128_END_INCLUDE_IMAGE_
Optic Glioma H&E Optic Glioma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1129_END_INCLUDE_IMAGE_
Pilocytic Astrocytoma x20 Pilocytic Astrocytoma x20 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1130_END_INCLUDE_IMAGE_
Pilocytic Astrocytoma x200 Pilocytic Astrocytoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1131_END_INCLUDE_IMAGE_
Pilocytic Astrocytoma x400 Pilocytic Astrocytoma x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1132_END_INCLUDE_IMAGE_
Pilocytic Astrocytoma H&E Pilocytic Astrocytoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1133_END_INCLUDE_IMAGE_
Pilomyxoid Astrocytoma Coronal Pilomyxoid Astrocytoma Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1134_END_INCLUDE_IMAGE_
Pilomyxoid Astrocytoma H&E Pilomyxoid Astrocytoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1135_END_INCLUDE_IMAGE_
Pilomyxoid Astrocytoma Smear Pilomyxoid Astrocytoma Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1136_END_INCLUDE_IMAGE_
Pilomyxoid Astrocytoma Ventral Pilomyxoid Astrocytoma Ventral 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1137_END_INCLUDE_IMAGE_
Pleomorphic Xanthoastrocytoma Su Pleomorphic Xanthoastrocytoma Surgical Exposure 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1138_END_INCLUDE_IMAGE_
SEGA x100 SEGA x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1139_END_INCLUDE_IMAGE_
SEGA x200 SEGA x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1140_END_INCLUDE_IMAGE_
SEGA x40 SEGA x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1141_END_INCLUDE_IMAGE_
Subependymal giant cell astrocyt Subependymal giant cell astrocytoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1142_END_INCLUDE_IMAGE_
Subependymal giant cell astrocyt Subependymal giant cell astrocytoma x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1143_END_INCLUDE_IMAGE_
Subependymal Giant Cell Astrocyt Subependymal Giant Cell Astrocytoma GFAP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1144_END_INCLUDE_IMAGE_
Subependymal Giant Cell Astrocyt Subependymal Giant Cell Astrocytoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1145_END_INCLUDE_IMAGE_
Subependymal Giant Cell Astrocyt Subependymal Giant Cell Astrocytoma Neurofilament IHC 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1146_END_INCLUDE_IMAGE_
Subependymal Giant Cell Astrocyt Subependymal Giant Cell Astrocytoma Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1147_END_INCLUDE_IMAGE_
Collid Cyst Coronal Collid Cyst Coronal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1148_END_INCLUDE_IMAGE_
Colloid Cyst Wall H&E Colloid Cyst Wall H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1149_END_INCLUDE_IMAGE_
Craniopharyngioma Coronal Close Craniopharyngioma Coronal Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1150_END_INCLUDE_IMAGE_
Craniopharyngioma Ventral Close Craniopharyngioma Ventral Close Up 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1151_END_INCLUDE_IMAGE_
Craniopharyngioma Wet Keratin H& Craniopharyngioma Wet Keratin H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1152_END_INCLUDE_IMAGE_
Rathke Cyst H&E Rathke Cyst H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1153_END_INCLUDE_IMAGE_
Rathke LP Rathke LP 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1154_END_INCLUDE_IMAGE_
dermoid dermoid 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1155_END_INCLUDE_IMAGE_
epiderm epiderm 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1156_END_INCLUDE_IMAGE_
anaplastic ependymoma x200 anaplastic ependymoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1157_END_INCLUDE_IMAGE_
Anaplastic Ependymoma H&E Anaplastic Ependymoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1158_END_INCLUDE_IMAGE_
Clear Cell Ependymoma H&E Clear Cell Ependymoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1159_END_INCLUDE_IMAGE_
Brainstem Ependymoma Transverse Brainstem Ependymoma Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1160_END_INCLUDE_IMAGE_
Ependymal Pseudorosette Ependymal Pseudorosette 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1161_END_INCLUDE_IMAGE_
Ependymoma H&E Ependymoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1162_END_INCLUDE_IMAGE_
Ependymoma Smear Ependymoma Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1163_END_INCLUDE_IMAGE_
Intramedullary Ependymoma Transv Intramedullary Ependymoma Transverse H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1164_END_INCLUDE_IMAGE_
Lateral Ventricle Ependymoma Cor Lateral Ventricle Ependymoma Coronal Anterior 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1165_END_INCLUDE_IMAGE_
Posterior Fossa Ependymoma Sagit Posterior Fossa Ependymoma Sagittal 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1166_END_INCLUDE_IMAGE_
Posterior Fossa Ependymoma Trans Posterior Fossa Ependymoma Transverse 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1167_END_INCLUDE_IMAGE_
Spinal ependymoma x20 Spinal ependymoma x20 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1168_END_INCLUDE_IMAGE_
Spinal ependymoma x40 Spinal ependymoma x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1169_END_INCLUDE_IMAGE_
True ependymal rosettes x20 True ependymal rosettes x20 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1170_END_INCLUDE_IMAGE_
True ependymal rosettes x400 True ependymal rosettes x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1171_END_INCLUDE_IMAGE_
MPE mucin x400 MPE mucin x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1172_END_INCLUDE_IMAGE_
MPE x40 MPE x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1173_END_INCLUDE_IMAGE_
Myxopapillary ependymoma x 400 Myxopapillary ependymoma x 400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1174_END_INCLUDE_IMAGE_
Myxopapillary ependymoma x100 Myxopapillary ependymoma x100 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1175_END_INCLUDE_IMAGE_
Myxopapillary ependymoma x200 Myxopapillary ependymoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1176_END_INCLUDE_IMAGE_
Myxopapillary ependymoma x200 B Myxopapillary ependymoma x200 B 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1177_END_INCLUDE_IMAGE_
Myxopapillary ependymoma x40 Myxopapillary ependymoma x40 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1178_END_INCLUDE_IMAGE_
Myxopapillary Ependymoma H&E Myxopapillary Ependymoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1179_END_INCLUDE_IMAGE_
Myxopapillary Ependymoma Sagitta Myxopapillary Ependymoma Sagittal Section 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1180_END_INCLUDE_IMAGE_
Myxopapillary Ependymoma Smear Myxopapillary Ependymoma Smear 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1181_END_INCLUDE_IMAGE_
Myxopapillary Ependymoma Surface Myxopapillary Ependymoma Surface 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1182_END_INCLUDE_IMAGE_
Pineal tanycytic x200 Pineal tanycytic x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1183_END_INCLUDE_IMAGE_
Tanycytic ependymoma pseudoroset Tanycytic ependymoma pseudorosette x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1184_END_INCLUDE_IMAGE_
Tanycytic ependymoma x200 Tanycytic ependymoma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1185_END_INCLUDE_IMAGE_
Tanycytic Ependymoma H&E Tanycytic Ependymoma H&E 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1186_END_INCLUDE_IMAGE_
Angiocentric glioma synaptophysi Angiocentric glioma synaptophysin IHC x20 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1187_END_INCLUDE_IMAGE_
Angiocentric glioma x200 Angiocentric glioma x200 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1188_END_INCLUDE_IMAGE_
Angiocentric glioma x400 Angiocentric glioma x400 13/09/2008 @ 9:10 gliageek _INCLUDE_IMAGE_1189_END_INCLUDE_IMAGE_
Schwannoma EMA Schwannoma EMA 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1290_END_INCLUDE_IMAGE_
Schwannoma GFAP lp Schwannoma GFAP lp 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1291_END_INCLUDE_IMAGE_
Schwannoma Low Power Schwannoma Low Power 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1292_END_INCLUDE_IMAGE_
Schwannoma LP Schwannoma LP 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1293_END_INCLUDE_IMAGE_
Schwannomas 100 lp Schwannomas 100 lp 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1294_END_INCLUDE_IMAGE_
Schwannoma Antoni A& B Schwannoma Antoni A& B 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1295_END_INCLUDE_IMAGE_
SCHWAN HP SCHWAN HP 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1296_END_INCLUDE_IMAGE_
verocay verocay 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1297_END_INCLUDE_IMAGE_
Vestibular Schwannoma Ventral Vestibular Schwannoma Ventral 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1298_END_INCLUDE_IMAGE_
Anaplastic Oligodendroglioma Anaplastic Oligodendroglioma 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1299_END_INCLUDE_IMAGE_
oligodendroglioma H&E oligodendroglioma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1300_END_INCLUDE_IMAGE_
Oligodendroglioma minigemistocyt Oligodendroglioma minigemistocytes H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1301_END_INCLUDE_IMAGE_
Oligodendroglioma Satellitosis Oligodendroglioma Satellitosis 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1302_END_INCLUDE_IMAGE_
Oligodendroglioma Smear H&E Oligodendroglioma Smear H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1303_END_INCLUDE_IMAGE_
Germinoma H&E Germinoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1304_END_INCLUDE_IMAGE_
Pineal Apoplexy Germinoma Sagitt Pineal Apoplexy Germinoma Sagittal 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1305_END_INCLUDE_IMAGE_
Suprasellar Germinoma Ventral Suprasellar Germinoma Ventral 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1306_END_INCLUDE_IMAGE_
Suprasellar Germinoma Ventral Cl Suprasellar Germinoma Ventral Close Up 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1307_END_INCLUDE_IMAGE_
Acidophil Stem Cell Adenoma H&E Acidophil Stem Cell Adenoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1308_END_INCLUDE_IMAGE_
Pituitary 36 Pituitary Tumor 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1309_END_INCLUDE_IMAGE_
2001 Pit Adenoma 2001 Pit Adenoma 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1310_END_INCLUDE_IMAGE_
2007 Pit 2007 Pit 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1311_END_INCLUDE_IMAGE_
Pit Adenoma Carcinoma Smear Pit Adenoma Carcinoma Smear 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1312_END_INCLUDE_IMAGE_
Atypical pituitary adenoma Ki-67 Atypical pituitary adenoma Ki-67 x200 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1313_END_INCLUDE_IMAGE_
Atypical pituitary adenoma x400 Atypical pituitary adenoma x400 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1314_END_INCLUDE_IMAGE_
Crooke Hyaline Change Pituitary Crooke Hyaline Change Pituitary Adenoma 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1315_END_INCLUDE_IMAGE_
Lymphocytic Hypophysitis H&E Lymphocytic Hypophysitis H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1316_END_INCLUDE_IMAGE_
Lymphocytic Hypophysitis Synapto Lymphocytic Hypophysitis Synaptophysin IHC 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1317_END_INCLUDE_IMAGE_
RCC met Pituitary RCC met Pituitary 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1318_END_INCLUDE_IMAGE_
Renal Cell Ca Pit Met Renal Cell Ca Pit Met 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1319_END_INCLUDE_IMAGE_
Normal Pituitary H&E Normal Pituitary H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1320_END_INCLUDE_IMAGE_
Normal Pituitary Reticulin Normal Pituitary Reticulin 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1321_END_INCLUDE_IMAGE_
Pituiary Adenoma Coronal Pituiary Adenoma Coronal 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1322_END_INCLUDE_IMAGE_
Pituitary Adenoma Ventral Pituitary Adenoma Ventral 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1323_END_INCLUDE_IMAGE_
Spindle Cell Oncocytoma 1 Spindle Cell Oncocytoma 1 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1324_END_INCLUDE_IMAGE_
Spindle Cell Oncocytoma x400 Spindle Cell Oncocytoma x400 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1325_END_INCLUDE_IMAGE_
Spindle Cell Oncocytoma H&E Spindle Cell Oncocytoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1326_END_INCLUDE_IMAGE_
ATRT 2 Atypical teratoid rhabdoid tumor 2 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1327_END_INCLUDE_IMAGE_
ATRT 1 Atypical teratoid rhabdoid tumor 1 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1328_END_INCLUDE_IMAGE_
Atypical teratoid tumor smear x4 Atypical teratoid tumor smear x400 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1329_END_INCLUDE_IMAGE_
Atypical teratoid tumor x400 Atypical teratoid tumor x400 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1330_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Atypical Teratoid Rhabdoid Tumor Sagittal 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1331_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Atypical Teratoid Rhabdoid Tumor Smear 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1332_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Atypical Teratoid Rhabdoid Tumor Ventral 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1333_END_INCLUDE_IMAGE_
Anaplastic Medulloblastoma H&E Anaplastic Medulloblastoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1334_END_INCLUDE_IMAGE_
Classic Medulloblastoma H&E Classic Medulloblastoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1335_END_INCLUDE_IMAGE_
Desmoplastic medulloblastoma Ret Desmoplastic medulloblastoma Reticulin histochemistry x200 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1336_END_INCLUDE_IMAGE_
Desmoplastic medulloblastoma Syn Desmoplastic medulloblastoma Synaptophysin IHC x100 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1337_END_INCLUDE_IMAGE_
Desmoplastic medulloblastoma x10 Desmoplastic medulloblastoma x100 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1338_END_INCLUDE_IMAGE_
Desmoplastic Medulloblastoma H&E Desmoplastic Medulloblastoma H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1339_END_INCLUDE_IMAGE_
Homer Wright Rosettes Homer Wright Rosettes 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1340_END_INCLUDE_IMAGE_
Leptomeningeal Medulloblastoma S Leptomeningeal Medulloblastoma Spinal 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1341_END_INCLUDE_IMAGE_
Leptomeningeal Medulloblastoma V Leptomeningeal Medulloblastoma Ventral 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1342_END_INCLUDE_IMAGE_
Medulloblastoma with extensive n Medulloblastoma with extensive nodularity HP 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1343_END_INCLUDE_IMAGE_
Medulloblastoma with extensive n Medulloblastoma with extensive nodularity LP 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1344_END_INCLUDE_IMAGE_
Medulloblastoma Sagittal Medulloblastoma Sagittal 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1345_END_INCLUDE_IMAGE_
Medulloblastoma With Extensive N Medulloblastoma With Extensive Nodularity H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1346_END_INCLUDE_IMAGE_
Reactive Astrocyte Medulloblasto Reactive Astrocyte Medulloblastoma GFAP High Power 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1347_END_INCLUDE_IMAGE_
Reactive Astrocytes Medulloblast Reactive Astrocytes Medulloblastoma GFAP 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1348_END_INCLUDE_IMAGE_
Neuroblastoma Abundant Neuropil Neuroblastoma Abundant Neuropil True Rosettes H&E 13/09/2008 @ 9:11 gliageek _INCLUDE_IMAGE_1349_END_INCLUDE_IMAGE_
MRI Wernicke with Arrows This is an MRI of a brain, with changes characteristic of Wernicke encephalopathy. There are 2 unnecessarily large red arrows indicating the changes. 13/09/2008 @ 10:12 jdmiles _INCLUDE_IMAGE_1351_END_INCLUDE_IMAGE_
Chordoid Meningioma H&E Chordoid Meningioma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1245_END_INCLUDE_IMAGE_
Clear Cell Menigioma H&E Clear Cell Menigioma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1246_END_INCLUDE_IMAGE_
Meningioma Containing Adenocarci Meningioma Containing Adenocarcinoma Frozen Section 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1247_END_INCLUDE_IMAGE_
Microcystic Meningioma H&E Microcystic Meningioma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1248_END_INCLUDE_IMAGE_
Papillary Meningioma H&E Papillary Meningioma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1249_END_INCLUDE_IMAGE_
Pap Mening Pap Mening 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1250_END_INCLUDE_IMAGE_
Rhabdoid meningioma Smear x400 Rhabdoid meningioma Smear x400 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1251_END_INCLUDE_IMAGE_
Rhabdoid meningioma x200 Rhabdoid meningioma x200 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1252_END_INCLUDE_IMAGE_
Rhabdoid meningioma x400 Rhabdoid meningioma x400 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1253_END_INCLUDE_IMAGE_
Rhabdoid Meningioma H&E Rhabdoid Meningioma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1254_END_INCLUDE_IMAGE_
Secretory meningioma x200 Secretory meningioma x200 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1255_END_INCLUDE_IMAGE_
Secretory meningioma x400 Secretory meningioma x400 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1256_END_INCLUDE_IMAGE_
Carcinomatous Meningitis Coronal Carcinomatous Meningitis Coronal 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1257_END_INCLUDE_IMAGE_
Epidural Metastatic Carcinoma Co Epidural Metastatic Carcinoma Compressing Spinal Cord 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1258_END_INCLUDE_IMAGE_
Intramedullary Small Cell Carcin Intramedullary Small Cell Carcinoma transverse 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1259_END_INCLUDE_IMAGE_
Leptomeningeal PNET in NF1 ventr Leptomeningeal PNET in NF1 ventral 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1260_END_INCLUDE_IMAGE_
Metastatic Carcinoma x100 Metastatic Carcinoma x100 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1261_END_INCLUDE_IMAGE_
Metastatic Carcinoma x200 Metastatic Carcinoma x200 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1262_END_INCLUDE_IMAGE_
Metastatic Carcinoma IVth Ventri Metastatic Carcinoma IVth Ventricle 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1263_END_INCLUDE_IMAGE_
Metastatic Carcinoma Cauda Equin Metastatic Carcinoma Cauda Equina 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1264_END_INCLUDE_IMAGE_
Metastatic Malignant Neuroectode Metastatic Malignant Neuroectodermal Tumor NF1 Coronal 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1265_END_INCLUDE_IMAGE_
Metastatic Melanoma Coronal Metastatic Melanoma Coronal 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1266_END_INCLUDE_IMAGE_
Metastatic Melanoma Ventral Metastatic Melanoma Ventral 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1267_END_INCLUDE_IMAGE_
Miliary Metastases Cerebellum H& Miliary Metastases Cerebellum H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1268_END_INCLUDE_IMAGE_
Miliary Metastases Close Up Miliary Metastases Close Up 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1269_END_INCLUDE_IMAGE_
Suprasellar Melanoma Metastasis Suprasellar Melanoma Metastasis Close Up 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1270_END_INCLUDE_IMAGE_
Hypothalamic Hamartoma Surgical Hypothalamic Hamartoma Surgical 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1271_END_INCLUDE_IMAGE_
Sacrococcygeal Teratoma Cauda Eq Sacrococcygeal Teratoma Cauda Equina 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1272_END_INCLUDE_IMAGE_
Subependymoma 3rd Vent x100 Subependymoma 3rd Vent x100 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1273_END_INCLUDE_IMAGE_
Arach Melanocytosis Arach Melanocytosis 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1274_END_INCLUDE_IMAGE_
Melanocytosis invasion Melanocytosis invasion 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1275_END_INCLUDE_IMAGE_
menigioangiomatosis 40x H&E menigioangiomatosis 40x H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1276_END_INCLUDE_IMAGE_
Primary Melanoma H&E Primary Melanoma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1277_END_INCLUDE_IMAGE_
Primary Meningeal Melanoma H&E Primary Meningeal Melanoma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1278_END_INCLUDE_IMAGE_
Primary Meningeal Melanoma H&E x Primary Meningeal Melanoma H&E x400 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1279_END_INCLUDE_IMAGE_
Sclerotic Meningioangiomatosis H Sclerotic Meningioangiomatosis H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1280_END_INCLUDE_IMAGE_
Tumoral Calcinosis H&E Tumoral Calcinosis H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1281_END_INCLUDE_IMAGE_
Intestinal Ganglioneuromatosis H Intestinal Ganglioneuromatosis H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1282_END_INCLUDE_IMAGE_
Neurofibroma Neurofibroma 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1283_END_INCLUDE_IMAGE_
Plexiform Neurofibroma Surgical Plexiform Neurofibroma Surgical 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1284_END_INCLUDE_IMAGE_
Plexiform Neurofibroma Gross Plexiform Neurofibroma Gross 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1285_END_INCLUDE_IMAGE_
Psammomatous Melanotic Schwannom Psammomatous Melanotic Schwannoma H&E 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1286_END_INCLUDE_IMAGE_
GFAP hp GFAP hp 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1287_END_INCLUDE_IMAGE_
GFAP island H&E hp GFAP island H&E hp 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1288_END_INCLUDE_IMAGE_
schwannoma schwannoma 13/09/2008 @ 9:12 gliageek _INCLUDE_IMAGE_1289_END_INCLUDE_IMAGE_
HIV encephalopathy Multinucleate This is an H&E-stained slice of brain from a person with HIV encephalopathy. The cell outlined in red is a multinucleated giant cell, which are seen in HIV encephalopathy. 13/09/2008 @ 11:24 jdmiles _INCLUDE_IMAGE_1352_END_INCLUDE_IMAGE_
Trichrome IBM hp Inclusions This is a trichrome of skeletal muscle biopsy, from a patient with Inclusion Body Myositis (IBM). There are many inclusions in a single muscle fiber. The unnecessarily large red arrows point to only 2 of them. 13/09/2008 @ 13:23 jdmiles _INCLUDE_IMAGE_1353_END_INCLUDE_IMAGE_
Inclusion body myositis x400 wit This is a muscle biopsy, stained with H&E. The patient has inclusion body myositis (IBM). H&E staining is not very sensitive for IBM. Nonetheless, sometimes, as in this image, rimmed vacuoles (the inclusion bodies) can be seen on H&E. A rimmed vacuole is indicated in this image by an unnecessarily large blue arrow. 13/09/2008 @ 13:32 jdmiles _INCLUDE_IMAGE_1354_END_INCLUDE_IMAGE_
IBM trichrome with highlighted r This is a Gomori trichrome stain of skeletal muscle. The patient has inclusion body myositis (IBM). Note that most of the muscle fibers look pretty normal. However, there are a couple of fibers (encircled by the thick red line) which contain numerous rimmed vacuoles. These rimmed vacuoles are the inclusion bodies. Because not every fiber has inclusions, it is possible that a biopsy might not contain any affected fibers. 13/09/2008 @ 13:49 jdmiles _INCLUDE_IMAGE_1355_END_INCLUDE_IMAGE_
Toe   14/09/2008 @ 12:07 jdmiles _INCLUDE_IMAGE_1356_END_INCLUDE_IMAGE_
Tub Agg Trichrome x400 with arro   14/09/2008 @ 12:11 jdmiles _INCLUDE_IMAGE_1357_END_INCLUDE_IMAGE_
Inclusion body myositis trichrom   14/09/2008 @ 13:12 jdmiles _INCLUDE_IMAGE_1358_END_INCLUDE_IMAGE_
Inclusion Body Myositis H&E 200   14/09/2008 @ 13:16 jdmiles _INCLUDE_IMAGE_1359_END_INCLUDE_IMAGE_
Temporal Artery Surgical Exposur This is an in vivo photograph of the temporal artery, exposed during surgery. The unnecessarily large red arrow points to the artery. 14/09/2008 @ 13:25 jdmiles _INCLUDE_IMAGE_1360_END_INCLUDE_IMAGE_
CCD COX with arrow This is a muscle biopsy, stained for cytochrome oxidase. The unnecessarily large red arrow shows an area of pallor in the center of a muscle fiber. This is the characteristic pathology seen in central core disease (CCD) 14/09/2008 @ 17:04 jdmiles _INCLUDE_IMAGE_1361_END_INCLUDE_IMAGE_
Alcoholic Cerebellar Degeneratio This is an example of how the cerebellum atrophies in patients with a history of chronic alcohol use. The dark areas in between the folia represent space which is not present in young, healthy cerebellum. The unnecessarily large red arrow points to one of these spaces. In one of the images below, you can see an example of what normal, healthy cerebellum looks like. 15/09/2008 @ 3:39 jdmiles _INCLUDE_IMAGE_1362_END_INCLUDE_IMAGE_
Tuberous Sclerosis SEGA and Nodu This is a gross image of a brain from a person who has tuberous sclerosis (TS). The unnecessarily large green arrow is pointing to a Subependymal Giant Cell Astrocytoma (SEGA), a common tumor in TS. 17/09/2008 @ 21:04 jdmiles _INCLUDE_IMAGE_1363_END_INCLUDE_IMAGE_
Circle of Willis Dissected - MCA This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the middle cerebral artery. 25/09/2008 @ 17:01 jdmiles _INCLUDE_IMAGE_1364_END_INCLUDE_IMAGE_
Circle of Willis Dissected - A1 This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the A1 segment of the anterior cerebral artery. 25/09/2008 @ 17:19 jdmiles _INCLUDE_IMAGE_1365_END_INCLUDE_IMAGE_
Circle of Willis Dissected - A2 This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the A2 segment of the anterior cerebral artery. 25/09/2008 @ 17:21 jdmiles _INCLUDE_IMAGE_1366_END_INCLUDE_IMAGE_
Circle of Willis Dissected - ACO This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the anterior communicating artery. 25/09/2008 @ 17:22 jdmiles _INCLUDE_IMAGE_1367_END_INCLUDE_IMAGE_
Circle of Willis Dissected - ICA This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the internal carotid artery. 25/09/2008 @ 17:23 jdmiles _INCLUDE_IMAGE_1368_END_INCLUDE_IMAGE_
Circle of Willis Dissected - PCO This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the posterior communicating artery. 25/09/2008 @ 17:26 jdmiles _INCLUDE_IMAGE_1369_END_INCLUDE_IMAGE_
Circle of Willis Dissected - PCA This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the posterior cerebral artery. 25/09/2008 @ 17:27 jdmiles _INCLUDE_IMAGE_1370_END_INCLUDE_IMAGE_
Circle of Willis Dissected - SCA This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the superior cerebellar artery. 25/09/2008 @ 17:28 jdmiles _INCLUDE_IMAGE_1371_END_INCLUDE_IMAGE_
Circle of Willis Dissected - bas This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the top of the basilar artery. 25/09/2008 @ 17:29 jdmiles _INCLUDE_IMAGE_1372_END_INCLUDE_IMAGE_
Circle of Willis Dissected - Ant This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the anterior choroidal artery. 25/09/2008 @ 18:49 jdmiles _INCLUDE_IMAGE_1373_END_INCLUDE_IMAGE_
Anterior Commissure Coronal with This is a gross brain specimen, cut in a coronal section. The unnecessarily large green arrow points to the anterior commissure. 25/09/2008 @ 20:56 jdmiles _INCLUDE_IMAGE_1374_END_INCLUDE_IMAGE_
hyaline inclusions trichrome x20 The unecessarily large green arrow in this image points to a hyaline inclusion. 26/09/2008 @ 8:53 jdmiles _INCLUDE_IMAGE_1375_END_INCLUDE_IMAGE_
Angiocentric glioma x400 with ar perivascular acccumulation of tumor cells within neocortex 26/09/2008 @ 13:53 gliageek _INCLUDE_IMAGE_1376_END_INCLUDE_IMAGE_
Nemaline Trichrome x400 with cir The thin red ovals encircle examples of the nemaline rods, which show up as dark bluish-purple dots on this Gomori trichrome stain. 26/09/2008 @ 19:58 jdmiles _INCLUDE_IMAGE_1377_END_INCLUDE_IMAGE_
Circle of Willis - Basilar with This is a gross specimen, showing a complete circle of Willis dissected. The unnecessarily large green arrow points to the rostral bifurcation of the basilar artery. 26/09/2008 @ 20:54 jdmiles _INCLUDE_IMAGE_1378_END_INCLUDE_IMAGE_
Anterior Femoral Cutaneous Nerve This cartoon shows the approximate distribution of the anterior femoral cutaneous nerve. 26/09/2008 @ 22:10 jdmiles _INCLUDE_IMAGE_1379_END_INCLUDE_IMAGE_
Deep Peroneal Nerve This cartoon shows the approximate cutaneous distribution of the deep peroneal nerve. 26/09/2008 @ 22:11 jdmiles _INCLUDE_IMAGE_1380_END_INCLUDE_IMAGE_
Ilioinguinal Nerve This cartoon shows the approximate cutaneous distribution of the ilioinguinal nerve. 26/09/2008 @ 22:11 jdmiles _INCLUDE_IMAGE_1381_END_INCLUDE_IMAGE_
Lateral Femoral Cutaneous Nerve This cartoon shows the approximate cutaneous distribution of the lateral femoral cutaneous nerve. 26/09/2008 @ 22:12 jdmiles _INCLUDE_IMAGE_1382_END_INCLUDE_IMAGE_
Sural Nerve This cartoon shows the approximate cutaneous distribution of the sural nerve. 26/09/2008 @ 22:21 jdmiles _INCLUDE_IMAGE_1383_END_INCLUDE_IMAGE_
Ragged Red Fiber Trichrome This is a preparation of skeletal muscle, stained with Gomori trichrome. A ragged red fiber can bee seen. 27/09/2008 @ 6:26 jdmiles _INCLUDE_IMAGE_1384_END_INCLUDE_IMAGE_
Ragged Red Fiber Trichrome with The unnecessarily large green arrow points to a ragged red fiber. 27/09/2008 @ 6:27 jdmiles _INCLUDE_IMAGE_1385_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - In The unncessarily large green arrow points to the internal capsule. 27/09/2008 @ 11:11 jdmiles _INCLUDE_IMAGE_1386_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - Se The unncessarily large green arrow points to the septum pellucidum. 27/09/2008 @ 11:12 jdmiles _INCLUDE_IMAGE_1387_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close- Cau The unncessarily large green arrow points to the caudate. 27/09/2008 @ 11:13 jdmiles _INCLUDE_IMAGE_1388_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - Pu The unncessarily large green arrow points to the putamen. 27/09/2008 @ 11:15 jdmiles _INCLUDE_IMAGE_1389_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - Cl The unncessarily large green arrow points to the claustrum. 27/09/2008 @ 11:18 jdmiles _INCLUDE_IMAGE_1390_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - Nu The unncessarily large green arrow points to the nucleus accumbens. 27/09/2008 @ 11:19 jdmiles _INCLUDE_IMAGE_1391_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - CC The unncessarily large green arrow points to the corpus callosum. 27/09/2008 @ 11:20 jdmiles _INCLUDE_IMAGE_1392_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - Fo The unncessarily large green arrow points to the fornix. 27/09/2008 @ 11:21 jdmiles _INCLUDE_IMAGE_1393_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - La The unncessarily large green arrow points to the lateral ventricle. 27/09/2008 @ 11:22 jdmiles _INCLUDE_IMAGE_1394_END_INCLUDE_IMAGE_
Basal Ganglia Coronal Close - In The unnecessarily large green arrow in this image points to the insula. 27/09/2008 @ 11:41 jdmiles _INCLUDE_IMAGE_1395_END_INCLUDE_IMAGE_
Anterior Commissure Coronal - La The unnecessarily large green arrow points to the lateral ventricle. 29/09/2008 @ 16:30 jdmiles _INCLUDE_IMAGE_1396_END_INCLUDE_IMAGE_
Anterior Commissure Coronal - Ca The unnecessarily large green arrow points to the head of the caudate. 29/09/2008 @ 16:31 jdmiles _INCLUDE_IMAGE_1397_END_INCLUDE_IMAGE_
Posterior Commissure Coronal wit This is a specimen of gross brain, cut in a coronal section. The unnecessarily large green arrow points to the posterior commissure. 30/09/2008 @ 13:33 jdmiles _INCLUDE_IMAGE_1398_END_INCLUDE_IMAGE_
Freidreich Ataxia Spinal Cord - This image shows a slice of spinal cord from a patient with Freidreich Ataxia. The tissue has been stained with a myelin stain. All myelin should appear dark. Note the loss of myelin in the posterior columns, spinocerebellar tracts, and corticospinal tracts. 03/10/2008 @ 13:40 jdmiles _INCLUDE_IMAGE_1399_END_INCLUDE_IMAGE_
True ependymal rosettes x400 wit This is an H&E preparation of an ependymoma. Note the 2 rosettes in this image. These are true rosettes: formations of cells creating a central lumen. These are more specific for ependymomas than are pseudorosettes, but rosettes do not occur as frequently as pseudorosettes.
The unnecessarily large green arrow points to the central lumen of a rosette. 		05/10/2008 @ 20:28 jdmiles _INCLUDE_IMAGE_1400_END_INCLUDE_IMAGE_
Ependymal Pseudorosette with arr This is an example of a pseudorosette. A pseudorosette does not form its own lumen. Instead, it is a radial arrangement of processes around a vessel. Note that the nuclei of the cells are all remote from the vessel. In this image, the vessel is cut lengthwise. You can see a light pink area around the vessel, which are the processes of the cells forming the pseudorosette. The unnecessarily green arrow in this image points to the red blood cells inside the lumen of the vessel that forms the center of this pseudorosette. 05/10/2008 @ 20:42 jdmiles _INCLUDE_IMAGE_1401_END_INCLUDE_IMAGE_
This is a test with arrow This is a bear. Avoid. 07/10/2008 @ 16:55 jdmiles _INCLUDE_IMAGE_1402_END_INCLUDE_IMAGE_
This is a test with arrow with a whatever you want to. 08/10/2008 @ 18:40 jdmiles _INCLUDE_IMAGE_1403_END_INCLUDE_IMAGE_
Gemistocytic Astrocytoma H&E wit This is an H&E stain of a gemisticytic astrocytoma. The unnecessarily large green arrow points to a gemistocytic astrocyte. Note the bigness of the cell, and the large volume of pink cytoplasm compared to the nucleus. 12/10/2008 @ 15:46 jdmiles _INCLUDE_IMAGE_1404_END_INCLUDE_IMAGE_
Optic Tract Glioma with arrow This is an MRI of a patient with an optic glioma. The unnecessarily large green arrow points to the tumor. 12/10/2008 @ 16:56 jdmiles _INCLUDE_IMAGE_1405_END_INCLUDE_IMAGE_
H&E - Example of pathological fi The unnecessarily large green arrow points to inflammatory cells in between the muscle fibers. 12/10/2008 @ 17:50 jdmiles _INCLUDE_IMAGE_1406_END_INCLUDE_IMAGE_
Meningioma - Contrast CT This is a contrast-enhanced CT of the head, showing a large meningioma in the left hemisphere. 15/10/2008 @ 17:23 jdmiles _INCLUDE_IMAGE_1407_END_INCLUDE_IMAGE_
Acetylcholine Stick-figure illustration of the chemical composition of acetylcholine. Courtesy of wikimedia. 18/10/2008 @ 13:10 jdmiles _INCLUDE_IMAGE_1408_END_INCLUDE_IMAGE_
Acetylcholine Stick figure of the chemical composition of acetylcholine. Courtesy of wikimedia. 18/10/2008 @ 13:14 jdmiles _INCLUDE_IMAGE_1409_END_INCLUDE_IMAGE_
NADH - normal muscle This is a slice of normal muscle, stained with a stain specific for NADH. Note the mosaic pattern of light and dark fibers, and the polygonal look of the fibers. 22/10/2008 @ 3:03 jdmiles _INCLUDE_IMAGE_1410_END_INCLUDE_IMAGE_
Lewy Body x600 with arrow This is an H&E stain of a slice of substantia nigra. The unnecessarily large green arrow points to a Lewy body in a neuron. Here, the Lewy body looks like a big pink sphere. It is an intraneuronal inclusion, comprised primarily of synuclein. 15/11/2008 @ 12:50 jdmiles _INCLUDE_IMAGE_1411_END_INCLUDE_IMAGE_
TLDL creutzfeldt cell with arrow The unnecessarily large green arrow points to a Creutzfeldt cell. Creutzfeldt cells are a form of reactive astrocytes that are seen in active inflammatory diseases, such as demyelinating diseases. They have plentiful cytoplasm, and granular mitoses. 19/11/2008 @ 15:31 jdmiles _INCLUDE_IMAGE_1412_END_INCLUDE_IMAGE_
Creutz Cell with arrow The unnecessarily large green arrow points to a Creutzfeldt cell. Creutzfeldt cells are a form of reactive astrocytes that are seen in active inflammatory diseases, such as demyelinating diseases. They have plentiful cytoplasm, and granular mitoses. 19/11/2008 @ 15:33 jdmiles _INCLUDE_IMAGE_1413_END_INCLUDE_IMAGE_
Another test image with arrow Some images will show additional information when you place your mouse over the image. 28/12/2008 @ 16:30 jdmiles _INCLUDE_IMAGE_1414_END_INCLUDE_IMAGE_
Sample Image with arrow Some images will show you additional information when you place the cursor over the image. 28/12/2008 @ 16:32 jdmiles _INCLUDE_IMAGE_1415_END_INCLUDE_IMAGE_
CCD NADH with arrow This is an NADH-stained preparation of skeletal muscle from a patient with central core disease. The pale areas in the muscle fibers, such as the one indicated by the unnecessarily large green arrow, are the cores. 05/01/2009 @ 21:16 jdmiles _INCLUDE_IMAGE_1416_END_INCLUDE_IMAGE_
CCD COX with arrow This is an NADH-stained prepareation of skeletal muscle from a patient with central core disease. The pale areas within the muscle fibers, such as the one indicated by the unnecessarily large green arrow, are the cores. 05/01/2009 @ 21:18 jdmiles _INCLUDE_IMAGE_1417_END_INCLUDE_IMAGE_
CCD - ATPase with label This is an ATPase stain of skeletal muscle from a patient with central core disease. With this stain, type 2 fibers appear dark red, and type 1 fibers are a lighter pink. Note the predominance of type 1 fibers, which is characteristic of central core disease. 05/01/2009 @ 22:23 jdmiles _INCLUDE_IMAGE_1418_END_INCLUDE_IMAGE_
NADH stained skeletal muscle fro NADH stained skeletal muscle from a patient with CCD. Source: Jungbluth H. Central core disease. Orphanet Journal of Rare Diseases. 2, 25. 2007. doi:10.1186/1750-1172-2-25. (PMID:17504518). This image is licensed under Creative Commons Attribution 2.0 License. 05/01/2009 @ 22:56 jdmiles _INCLUDE_IMAGE_1419_END_INCLUDE_IMAGE_
Centronuclear Myopathy Muscle biopsy from the quadriceps taken at 3 months of age from a girl with X-linked centronuclear ("myotubular") myopathy due to a mutation in the myotubularin (MTM1) gene and extremely skewed X-inactivation, H&E stain, transverse section. Note marked variability in fibre size, moderate increase in connective tissue and numerous central nuclei. Source: Heinz Jungbluth, Carina Wallgren-Pettersson and Jocelyn Laporte, published in Orphanet Journal of Rare Diseases 2008; 3:26. doi:10.1186/1750-1172-3-26. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 05/01/2009 @ 23:12 jdmiles _INCLUDE_IMAGE_1420_END_INCLUDE_IMAGE_
Centronuclear Myopathy with arro An H&E stain of a section of skeletal muscle from a patient with CNM. Note the abundant small muscle fibers with centrally located nuclei, like the one indicated by the unnecessarily large green arrow. 06/01/2009 @ 0:11 jdmiles _INCLUDE_IMAGE_1421_END_INCLUDE_IMAGE_
Optical Micsroscope This is a photograph of an optical microscope, with various parts of it labeled with numbers to aid instruction. Courtesy of Wikimedia. This image was released into the public domain by the photographer. 19/01/2009 @ 2:06 jdmiles _INCLUDE_IMAGE_1422_END_INCLUDE_IMAGE_
Optical Miscroscope Smaller A smaller photograph of an optical microscope, with various parts of it labeled with numbers to aid instruction. Courtesy of Wikimedia. This image was released into the public domain by the photographer. 19/01/2009 @ 2:36 jdmiles _INCLUDE_IMAGE_1423_END_INCLUDE_IMAGE_
Specimen at 40X with arrow The area we'll be zooming into at 100X 19/01/2009 @ 3:44 jdmiles _INCLUDE_IMAGE_1424_END_INCLUDE_IMAGE_
Specimen at 100X with arrow The area we'll be zooming into at 200X 19/01/2009 @ 3:46 jdmiles _INCLUDE_IMAGE_1425_END_INCLUDE_IMAGE_
Gray1.png Diagram of a cell. (Modified from Wilson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1426_END_INCLUDE_IMAGE_
Gray2.png Diagram showing the changes which occur in the centrosomes and nucleus of a cell in the process of mitotic division. (Schäfer.) I to III, prophase; IV, metaphase; V and VI, anaphase; VII and VIII, telophase. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1427_END_INCLUDE_IMAGE_
Gray3.png Human ovum examined fresh in the liquor folliculi. (Waldeyer.) The zona pellucida is seen as a thick clear girdle surrounded by the cells of the corona radiata. The egg itself shows a central granular deutoplasmic area and a peripheral clear layer, and encloses the germinal vesicle, in which is seen the germinal spot. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1428_END_INCLUDE_IMAGE_
Gray4.png Formation of polar bodies in Asterias glacialis. (Slightly modified from Hertwig.) In I the polar spindle (sp) has advanced to the surface of the egg. In II a small elevation (pb1) is formed which receives half of the spindle. In III the elevation is constricted off, forming the first polar body (pb1), and a second spindle is formed. In IV is seen a second elevation which in V has been constricted off as the second polar body (pb2). Out of the remainder of the spindle (f.pn in VI) the female pronucleus is developed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1429_END_INCLUDE_IMAGE_
Gray5.png Diagram showing the reduction in number of the chromosomes in the process of maturation of the ovum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1430_END_INCLUDE_IMAGE_
Gray6.png Human spermatozoön. Diagrammatic. A. Surface view. B. Profile view. In C the head, neck, and connecting piece are more highly magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1431_END_INCLUDE_IMAGE_
Gray7.png Scheme showing analogies in the process of maturation of the ovum and the development of the spermatids (young spermatozoa). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1432_END_INCLUDE_IMAGE_
Gray8.png The process of fertilization in the ovum of a mouse. (After Sobotta.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1433_END_INCLUDE_IMAGE_
Gray9.png First stages of segmentation of a mammalian ovum. Semidiagrammatic. (From a drawing by Allen Thomson.) z.p. Zona striata. p.gl. Polar bodies. a. Two-cell stage. b. Four-cell stage. c. Eight-cell stage. d, e. Morula stage. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1434_END_INCLUDE_IMAGE_
Gray10.png Blastodermic vesicle of Vespertilio murinus. (After van Beneden.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1435_END_INCLUDE_IMAGE_
Gray11.png Section through embryonic disk of Vespertilio murinus. (After van Beneden.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1436_END_INCLUDE_IMAGE_
Gray12.png Section through embryonic area of Vespertilio murinus to show the formation of the amniotic cavity. (After van Beneden.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1437_END_INCLUDE_IMAGE_
Gray13.png Surface view of embryo of a rabbit. (After Kölliker.) arg. Embryonic disk. pr. Primitive streak. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1438_END_INCLUDE_IMAGE_
Gray14.png Surface view of embryo of Hylobates concolor. (After Selenka.) The amnion has been opened to expose the embryonic disk. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1439_END_INCLUDE_IMAGE_
Gray15.png Series of transverse sections through the embryonic disk of Tarsius. (After Hubrecht.) Section I passes through the disk, in front of Hensen’s knot and shows only the ectoderm and entoderm. Sections II, III, and IV pass through Hensen’s knot, which is seen in V tapering away into the primitive streak. In III, IV, and V the mesoderm is seen springing from the keel-like thickening of the ectoderm, which in III and IV is observed to be continuous into the entoderm. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1440_END_INCLUDE_IMAGE_
Gray16.png A series of transverse sections through an embryo of the dog. (After Bonnet.) Section I is the most anterior. In V the neural plate is spread out nearly flat. The series shows the uprising of the neural folds to form the neural canal. a. Aortæ. c. Intermediate cell mass. ect. Ectoderm. ent. Entoderm. h, h. Rudiments of endothelial heart tubes. In III, IV, and V the scattered cells represented between the entoderm and splanchnic layer of mesoderm are the vasoformative cells which give origin in front, according to Bonnet, to the heart tubes, h; l.p. Lateral plate still undivided in I, II, and III; in IV and V split into somatic (sm) and splanchnic (sp) layers of mesoderm. mes. Mesoderm. p. Pericardium. so. Primitive segment. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1441_END_INCLUDE_IMAGE_
Gray17.png Human embryo—length, 2 mm. Dorsal view, with the amnion laid open. X 30. (After Graf Spee.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1442_END_INCLUDE_IMAGE_
Gray18.png Chick embryo of thirty-three hours’ incubation, viewed from the dorsal aspect. X 30. (From Duval’s “Atlas d’Embryologie.”) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1443_END_INCLUDE_IMAGE_
Gray19.png Transverse section of a chick embryo of forty-five hours’ incubation. (Balfour.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1444_END_INCLUDE_IMAGE_
Gray20.png Dorsum of human embryo, 2.11 mm. in length. (After Eternod.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1445_END_INCLUDE_IMAGE_
Gray21.png Section through the embryo which is represented in Fig. 17. (After Graf Spee.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1446_END_INCLUDE_IMAGE_
Gray22.png Human embryo of 2.6 mm. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1447_END_INCLUDE_IMAGE_
Gray23.png Human embryo from thirty-one to thirty-four days. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1448_END_INCLUDE_IMAGE_
Gray24.png Diagram showing earliest observed stage of human ovum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1449_END_INCLUDE_IMAGE_
Gray25.png Diagram illustrating early formation of allantois and differentiation of body-stalk. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1450_END_INCLUDE_IMAGE_
Gray26.png Diagram showing later stage of allantoic development with commencing constriction of the yolk-sac. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1451_END_INCLUDE_IMAGE_
Gray27.png Diagram showing the expansion of amnion and delimitation of the umbilicus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1452_END_INCLUDE_IMAGE_
Gray28.png Diagram illustrating a later stage in the development of the umbilical cord. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1453_END_INCLUDE_IMAGE_
Gray29.png Diagram of a transverse section, showing the mode of formation of the amnion in the chick. The amniotic folds have nearly united in the middle line. (From Quain’s Anatomy.) Ectoderm, blue; mesoderm, red; entoderm and notochord, black. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1454_END_INCLUDE_IMAGE_
Gray30.png Fetus of about eight weeks, enclosed in the amnion. Magnified a little over two diameters. (Drawn from stereoscopic photographs lent by Prof. A. Thomson, Oxford.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1455_END_INCLUDE_IMAGE_
Gray31.png Model of human embryo 1.3 mm. long. (After Eternod.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1456_END_INCLUDE_IMAGE_
Gray32.png Section through ovum imbedded in the uterine decidua. Semidiagrammatic. (After Peters.) am. Amniotic cavity. b.c. Blood-clot. b.s. Body-stalk. ect. Embryonic ectoderm. ent. Entoderm. mes. Mesoderm. m.v. Maternal vessels. tr. Trophoblast. u.e. Uterine epithelium. u.g. Uterine glands. y.s. Yolk-sac. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1457_END_INCLUDE_IMAGE_
Gray33.png Diagrammatic sections of the uterine mucous membrane: A. The non-pregnant uterus. B. The pregnant uterus, showing the thickened mucous membrane and the altered condition of the uterine glands. (Kundrat and Engelmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1458_END_INCLUDE_IMAGE_
Gray34.png Sectional plan of the gravid uterus in the third and fourth month. (Modified from Wagner.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1459_END_INCLUDE_IMAGE_
Gray35.png Transverse section of a chorionic villus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1460_END_INCLUDE_IMAGE_
Gray36.png Primary chorionic villi. Diagrammatic. (Modified from Bryce.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1461_END_INCLUDE_IMAGE_
Gray37.png Secondary chorionic villi. Diagrammatic. (Modified from Bryce.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1462_END_INCLUDE_IMAGE_
Gray38.png Fetus in utero, between fifth and sixth months. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1463_END_INCLUDE_IMAGE_
Gray39.png Scheme of placental circulation. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1464_END_INCLUDE_IMAGE_
Gray40.png Embryo between eighteen and twenty-one days. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1465_END_INCLUDE_IMAGE_
Gray41.png Head end of human embryo, about the end of the fourth week. (From model by Peter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1466_END_INCLUDE_IMAGE_
Gray42.png Floor of pharynx of embryo shown in Fig. 40 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1467_END_INCLUDE_IMAGE_
Gray43.png Head and neck of a human embryo eighteen weeks old, with Meckel’s cartilage and hyoid bar exposed. (After Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1468_END_INCLUDE_IMAGE_
Gray44.png Under surface of the head of a human embryo about twenty-nine days old. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1469_END_INCLUDE_IMAGE_
Gray45.png Head end of human embryo of about thirty to thirty-one days. (From model by Peters.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1470_END_INCLUDE_IMAGE_
Gray46.png Same embryo as shown in Fig. 45, with front wall of pharynx removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1471_END_INCLUDE_IMAGE_
Gray47.png Head of a human embryo of about eight weeks, in which the nose and mouth are formed. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1472_END_INCLUDE_IMAGE_
Gray48.png Diagram showing the regions of the adult face and neck related to the fronto-nasal process and the branchial arches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1473_END_INCLUDE_IMAGE_
Gray49.png Primitive palate of a human embryo of thirty-seven to thirty-eight days. (From model by Peters.) On the left side the lateral wall of the nasal cavity has been removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1474_END_INCLUDE_IMAGE_
Gray50.png The roof of the mouth of a human embryo, aged about two and a half months, showing the mode of formation of the palate. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1475_END_INCLUDE_IMAGE_
Gray51.png Frontal section of nasal cavities of a human embryo 28 mm. long. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1476_END_INCLUDE_IMAGE_
Gray52.png Human embryo from thirty-one to thirty-four days. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1477_END_INCLUDE_IMAGE_
Gray53.png Embryo of about six weeks. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1478_END_INCLUDE_IMAGE_
Gray54.png Figure obtained by combining several successive sections of a human embryo of about the fourth week (From Kollmann.) The upper arrow is in the pleuroperitoneal opening, the lower in the pleuropericardial. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1479_END_INCLUDE_IMAGE_
Gray55.png Upper part of celom of human embryo of 6.8 mm., seen from behind. (From model by Piper.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1480_END_INCLUDE_IMAGE_
Gray56.png Diagram of transverse section through rabbit embryo. (After Keith.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1481_END_INCLUDE_IMAGE_
Gray57.png The thoracic aspect of the diaphragm of a newly born child in which the communication between the peritoneum and pleura has not been closed on the left side; the position of the opening is marked on the right side by the spinocostal hiatus. (After Keith.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1482_END_INCLUDE_IMAGE_
Gray58.png Human embryo about fifteen days old. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1483_END_INCLUDE_IMAGE_
Gray59.png Human embryo between eighteen and twenty-one days old. (His. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1484_END_INCLUDE_IMAGE_
Gray60.png Human embryo, twenty-seven to thirty days old. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1485_END_INCLUDE_IMAGE_
Gray61.png Human embryo, thirty-one to thirty-four days old. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1486_END_INCLUDE_IMAGE_
Gray62.png Human embryo of about six weeks. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1487_END_INCLUDE_IMAGE_
Gray63.png Human embryo about eight and a half weeks old. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1488_END_INCLUDE_IMAGE_
Gray64.png Transverse section of a human embryo of the third week to show the differentiation of the primitive segment. (Kollmann.) ao. Aorta. m.p. Muscle-plate. n.c. Neural canal. sc. Sclerotome. s.p. cutis-plate. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1489_END_INCLUDE_IMAGE_
Gray65.png Scheme showing the manner in which each vertebral centrum is developed from portions of two adjacent segments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1490_END_INCLUDE_IMAGE_
Gray66.png Sagittal section through an intervertebral fibrocartilage and adjacent parts of two vertebræ of an advanced sheep’s embryo. (Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1491_END_INCLUDE_IMAGE_
Gray67.png Diagrams showing the portions of the adult vertebræ derived respectively from the bodies, vertebral arches, and costal processes of the embryonic vertebræ. The bodies are represented in yellow, the vertebral arches in red, and the costal processes in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1492_END_INCLUDE_IMAGE_
Gray68.png Sagittal section of cephalic end of notochord. (Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1493_END_INCLUDE_IMAGE_
Gray69.png Diagrams of the cartilaginous cranium. (Wiedersheim.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1494_END_INCLUDE_IMAGE_
Gray70.png Model of the chondrocranium of a human embryo, 8 cm. long. (Hertwig.) The membrane bones are not represented. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1495_END_INCLUDE_IMAGE_
Gray71.png The same model as shown in Fig. 70 from the left side. Certain of the membrane bones of the right side are represented in yellow. (Hertwig.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1496_END_INCLUDE_IMAGE_
Gray72.png Human bone marrow. Highly magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1497_END_INCLUDE_IMAGE_
Gray73.png Transverse section of compact tissue bone. Magnified. (Sharpey.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1498_END_INCLUDE_IMAGE_
Gray74.png Section parallel to the surface from the body of the femur. X 100. a, Haversian canals; b, lacunæ seen from the side; c, others seen from the surface in lamellæ, which are cut horizontally. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1499_END_INCLUDE_IMAGE_
Gray75.png Perforating fibers, human parietal bone, decalcified. (H. Müller.) a, perforating fibers in situ; b, fibres drawn out of their sockets; c, sockets. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1500_END_INCLUDE_IMAGE_
Gray76.png Nucleated bone cells and their processes, contained in the bone lacunæ and their canaliculi respectively. From a section through the vertebra of an adult mouse. (Klein and Noble Smith.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1501_END_INCLUDE_IMAGE_
Gray77.png Transverse section of body of human fibula, decalcified. X 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1502_END_INCLUDE_IMAGE_
Gray78.png Part of the growing edge of the developing parietal bone of a fetal cat. (After J. Lawrence.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1503_END_INCLUDE_IMAGE_
Gray79.png Section of fetal bone of cat. ir. Irruption of the subperiosteal tissue. p. Fibrous layer of the periosteum. o. Layer of osteoblasts. im. Subperiosteal bony deposit. (From Quain’s “Anatomy,” E. A. Schäfer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1504_END_INCLUDE_IMAGE_
Gray80.png Part of a longitudinal section of the developing femur of a rabbit. a. Flattened cartilage cells. b. Enlarged cartilage cells. c, d. Newly formed bone. e. Osteoblasts. f. Giant cells or osteoclasts. g, h. Shrunken cartilage cells. (From “Atlas of Histology,” Klein and Noble Smith.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1505_END_INCLUDE_IMAGE_
Gray81.png Osteoblasts and osteoclasts on trabecula of lower jaw of calf embryo. (Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1506_END_INCLUDE_IMAGE_
Gray82.png A typical thoracic vertebra, viewed from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1507_END_INCLUDE_IMAGE_
Gray83.png Sagittal section of a lumbar vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1508_END_INCLUDE_IMAGE_
Gray84.png A cervical vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1509_END_INCLUDE_IMAGE_
Gray85.png Side view of a typical cervical vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1510_END_INCLUDE_IMAGE_
Gray86.png First cervical vertebra, or atlas. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1511_END_INCLUDE_IMAGE_
Gray87.png Second cervical vertebra, or epistropheus, from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1512_END_INCLUDE_IMAGE_
Gray88.png Second cervical vertebra, epistropheus, or axis, from the side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1513_END_INCLUDE_IMAGE_
Gray89.png Seventh cervical vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1514_END_INCLUDE_IMAGE_
Gray90.png A thoracic vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1515_END_INCLUDE_IMAGE_
Gray91.png Peculiar thoracic vertebræ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1516_END_INCLUDE_IMAGE_
Gray92.png A lumbar vertebra seen from the side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1517_END_INCLUDE_IMAGE_
Gray93.png A lumbar vertebra from above and behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1518_END_INCLUDE_IMAGE_
Gray94.png Fifth lumbar vertebra, from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1519_END_INCLUDE_IMAGE_
Gray95.png Sacrum, pelvic surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1520_END_INCLUDE_IMAGE_
Gray96.png Sacrum, dorsal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1521_END_INCLUDE_IMAGE_
Gray97.png Lateral surfaces of sacrum and coccyx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1522_END_INCLUDE_IMAGE_
Gray98.png Base of sacrum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1523_END_INCLUDE_IMAGE_
Gray99.png Median sagittal section of the sacrum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1524_END_INCLUDE_IMAGE_
Gray100.png Coccyx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1525_END_INCLUDE_IMAGE_
Gray101.png Ossification of a vertebra 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1526_END_INCLUDE_IMAGE_
Gray102.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1527_END_INCLUDE_IMAGE_
Gray103.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1528_END_INCLUDE_IMAGE_
Gray104.png Atlas. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1529_END_INCLUDE_IMAGE_
Gray105.png Axis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1530_END_INCLUDE_IMAGE_
Gray106.png Lumbar vertebra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1531_END_INCLUDE_IMAGE_
Gray107.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1532_END_INCLUDE_IMAGE_
Gray108.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1533_END_INCLUDE_IMAGE_
Gray109.png Ossification of the sacrum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1534_END_INCLUDE_IMAGE_
Gray110.png Base of young sacrum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1535_END_INCLUDE_IMAGE_
Gray111.png Lateral view of the vertebral column. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1536_END_INCLUDE_IMAGE_
Gray112.png The thorax from in front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1537_END_INCLUDE_IMAGE_
Gray113.png The thorax from behind. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1538_END_INCLUDE_IMAGE_
Gray114.png The thorax from the right. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1539_END_INCLUDE_IMAGE_
Gray115.png Anterior surface of sternum and costa cartilages. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1540_END_INCLUDE_IMAGE_
Gray116.png Posterior surface of sternum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1541_END_INCLUDE_IMAGE_
Gray117.png Lateral border of sternum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1542_END_INCLUDE_IMAGE_
Gray118.png Ossification of the sternum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1543_END_INCLUDE_IMAGE_
Gray119.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1544_END_INCLUDE_IMAGE_
Gray120.png Peculiarities. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1545_END_INCLUDE_IMAGE_
Gray121.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1546_END_INCLUDE_IMAGE_
Gray122.png A central rib of the left side. Inferior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1547_END_INCLUDE_IMAGE_
Gray123.png A central rib of the left side, viewed from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1548_END_INCLUDE_IMAGE_
Gray124.png Peculiar ribs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1549_END_INCLUDE_IMAGE_
Gray125.png Peculiar ribs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1550_END_INCLUDE_IMAGE_
Gray126.png Peculiar ribs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1551_END_INCLUDE_IMAGE_
Gray127.png Peculiar ribs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1552_END_INCLUDE_IMAGE_
Gray128.png Peculiar ribs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1553_END_INCLUDE_IMAGE_
Gray129.png Occipital bone. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1554_END_INCLUDE_IMAGE_
Gray130.png Occipita bone. Inner surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1555_END_INCLUDE_IMAGE_
Gray131.png Occipital bone at birth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1556_END_INCLUDE_IMAGE_
Gray132.png Left parietal bone. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1557_END_INCLUDE_IMAGE_
Gray133.png Left parietal bone. Inner surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1558_END_INCLUDE_IMAGE_
Gray134.png Frontal bone. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1559_END_INCLUDE_IMAGE_
Gray135.png Frontal bone. Inner surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1560_END_INCLUDE_IMAGE_
Gray136.png Frontal bone at birth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1561_END_INCLUDE_IMAGE_
Gray137.png Left temporal bone. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1562_END_INCLUDE_IMAGE_
Gray138.png Left temporal bone. Inner surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1563_END_INCLUDE_IMAGE_
Gray139.png Coronal section of right temporal bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1564_END_INCLUDE_IMAGE_
Gray140.png Diagrammatic view of the fundus of the right internal acoustic meatus. (Testut.) 1. Crista falciformis. 2. Area facialis, with (2’) internal opening of the facial canal. 3. Ridge separating the area facialis from the area cribrosa superior. 4. Area cribrosa superior, with (4’) openings for nerve filaments. 5. Anterior inferior cribriform area, with (5’) the tractus spiralis foraminosus, and (5’’) the canalis centralis of the cochlea. 6. Ridge separating the tractus spiralis foraminosus from the area cribrosa media. 7. Area cribrosa media, with (7’) orifices for nerves to saccule. 8. Foramen singulare. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1565_END_INCLUDE_IMAGE_
Gray141.png Left temporal bone. Inferior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1566_END_INCLUDE_IMAGE_
Gray142.png The three principal parts of the tempora bone at birth. 1. Outer surface of petromastoid part. 2. Outer surface of tympanic ring. 3. Inner surface of squama. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1567_END_INCLUDE_IMAGE_
Gray143.png Temporal bone at birth. Outer aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1568_END_INCLUDE_IMAGE_
Gray144.png Temporal bone at birth. Inner aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1569_END_INCLUDE_IMAGE_
Gray145.png Sphenoid bone. Upper surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1570_END_INCLUDE_IMAGE_
Gray146.png Sphenoid bone. Anterior and inferior surfaces. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1571_END_INCLUDE_IMAGE_
Gray147.png Sphenoid bone. Upper and posterior surfaces. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1572_END_INCLUDE_IMAGE_
Gray148.png Sphenoid bone at birth. Posterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1573_END_INCLUDE_IMAGE_
Gray149.png Ethmoid bone from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1574_END_INCLUDE_IMAGE_
Gray150.png Perpendicular plate of ethmoid. Shown by removing the right labyrinth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1575_END_INCLUDE_IMAGE_
Gray151.png Ethmoid bone from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1576_END_INCLUDE_IMAGE_
Gray152.png Ethmoid bone from the right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1577_END_INCLUDE_IMAGE_
Gray153.png Lateral wall of nasal cavity, showing ethmoid bone in position. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1578_END_INCLUDE_IMAGE_
Gray154.png Articulation of nasal and lacrimal bones with maxilla. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1579_END_INCLUDE_IMAGE_
Gray155.png Right nasal bone. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1580_END_INCLUDE_IMAGE_
Gray156.png Right nasal bone. Inner surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1581_END_INCLUDE_IMAGE_
Gray157.png Left maxilla. Outer surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1582_END_INCLUDE_IMAGE_
Gray158.png Left maxilla. Nasal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1583_END_INCLUDE_IMAGE_
Gray159.png Left maxillary sinus opened from the exterior. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1584_END_INCLUDE_IMAGE_
Gray160.png The bony palate and alveolar arch. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1585_END_INCLUDE_IMAGE_
Gray161.png Anterior surface of maxilla at birth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1586_END_INCLUDE_IMAGE_
Gray162.png Inferior surface of maxilla at birth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1587_END_INCLUDE_IMAGE_
Gray163.png Left lacrimal bone. Orbital surface. Enlarged. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1588_END_INCLUDE_IMAGE_
Gray164.png Left zygomatic bone in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1589_END_INCLUDE_IMAGE_
Gray165.png Left zygomatic bone. Malar surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1590_END_INCLUDE_IMAGE_
Gray166.png Left zygomatic bone. Temporal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1591_END_INCLUDE_IMAGE_
Gray167.png Articulation of left palatine bone with maxilla. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1592_END_INCLUDE_IMAGE_
Gray168.png Left palatine bone. Nasal aspect. Enlarged. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1593_END_INCLUDE_IMAGE_
Gray169.png Left palatine bone. Posterior aspect. Enlarged. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1594_END_INCLUDE_IMAGE_
Gray170.png Lateral wall of right nasal cavity showing inferior concha in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1595_END_INCLUDE_IMAGE_
Gray171.png Right inferior nasal concha. Medial surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1596_END_INCLUDE_IMAGE_
Gray172.png Right inferior nasal concha. Lateral surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1597_END_INCLUDE_IMAGE_
Gray173.png Median wall of left nasal cavity showing vomer in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1598_END_INCLUDE_IMAGE_
Gray174.png The vomer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1599_END_INCLUDE_IMAGE_
Gray175.png Vomer of infant. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1600_END_INCLUDE_IMAGE_
Gray176.png Mandible. Outer surface. Side view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1601_END_INCLUDE_IMAGE_
Gray177.png Mandible. Inner surface. Side view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1602_END_INCLUDE_IMAGE_
Gray178.png Mandible of human embryo 24 mm. long. Outer aspect. (From model by Low.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1603_END_INCLUDE_IMAGE_
Gray179.png Mandible of human embryo 24 mm. long. Inner aspect. (From model by Low.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1604_END_INCLUDE_IMAGE_
Gray180.png Mandible of human embryo 95 mm. long. Outer aspect. Nuclei of cartilage stippled. (From model by Low.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1605_END_INCLUDE_IMAGE_
Gray181.png Mandible of human embryo 95 mm. long. Inner aspect. Nuclei of cartilage stippled. (From model by Low.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1606_END_INCLUDE_IMAGE_
Gray182.png At birth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1607_END_INCLUDE_IMAGE_
Gray183.png In childhood. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1608_END_INCLUDE_IMAGE_
Gray184.png In the adult. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1609_END_INCLUDE_IMAGE_
Gray185.png In old age. Side view of the mandible at different periods of life. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1610_END_INCLUDE_IMAGE_
Gray186.png Hyoid bone. Anterior surface. Enlarged. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1611_END_INCLUDE_IMAGE_
Gray187.png Base of skull. Inferior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1612_END_INCLUDE_IMAGE_
Gray188.png Side view of the skull. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1613_END_INCLUDE_IMAGE_
Gray189.png Left infratemporal fossa. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1614_END_INCLUDE_IMAGE_
Gray190.png The skull from the front. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1615_END_INCLUDE_IMAGE_
Gray191.png Horizontal section of nasal and orbital cavities. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1616_END_INCLUDE_IMAGE_
Gray192.png Medial wall of left orbit. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1617_END_INCLUDE_IMAGE_
Gray193.png Base of the skull. Upper surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1618_END_INCLUDE_IMAGE_
Gray194.png Sagittal section of skull. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1619_END_INCLUDE_IMAGE_
Gray195.png Medial wall of left nasal fossa. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1620_END_INCLUDE_IMAGE_
Gray196.png Roof, floor, and lateral wall of left nasal cavity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1621_END_INCLUDE_IMAGE_
Gray197.png Skull at birth, showing frontal and occipital fonticuli. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1622_END_INCLUDE_IMAGE_
Gray198.png Skull at birth, showing sphenoidal and mastoid fonticuli. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1623_END_INCLUDE_IMAGE_
Gray199.png The premaxilla and its sutures. (After Albrecht.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1624_END_INCLUDE_IMAGE_
Gray200.png Left clavicle. Superior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1625_END_INCLUDE_IMAGE_
Gray201.png Left clavicle. Inferior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1626_END_INCLUDE_IMAGE_
Gray202.png Left scapula. Costal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1627_END_INCLUDE_IMAGE_
Gray203.png Left scapula. Dorsal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1628_END_INCLUDE_IMAGE_
Gray204.png Posterior view of the thorax and shoulder girdle. (Morris.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1629_END_INCLUDE_IMAGE_
Gray205.png Left scapula. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1630_END_INCLUDE_IMAGE_
Gray206.png Plan of ossification of the scapula. From seven centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1631_END_INCLUDE_IMAGE_
Gray207.png Left humerus. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1632_END_INCLUDE_IMAGE_
Gray208.png Left humerus. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1633_END_INCLUDE_IMAGE_
Gray209.png Longitudinal section of head of left humerus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1634_END_INCLUDE_IMAGE_
Gray210.png Plan of ossification of the humerus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1635_END_INCLUDE_IMAGE_
Gray211.png Epiphysial lines of humerus in a young adult. Anterior aspect. The lines of attachment of the articular capsules are in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1636_END_INCLUDE_IMAGE_
Gray212.png Upper extremity of left ulna. Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1637_END_INCLUDE_IMAGE_
Gray213.png Bones of left forearm. Anterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1638_END_INCLUDE_IMAGE_
Gray214.png Bones of left forearm. Posterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1639_END_INCLUDE_IMAGE_
Gray215.png Plan of ossification of the ulna. From three centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1640_END_INCLUDE_IMAGE_
Gray216.png Epiphysial lines of ulna in a young adult. Lateral aspect. The lines of attachment of the articular capsules are in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1641_END_INCLUDE_IMAGE_
Gray217.png Plan of ossification of the radius. From three centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1642_END_INCLUDE_IMAGE_
Gray218.png Epiphysial lines of radius in a young adult. Anterior aspect. The line of attachment of the articular capsule of the wrist-joint is in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1643_END_INCLUDE_IMAGE_
Gray219.png Bones of the left hand. Volar surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1644_END_INCLUDE_IMAGE_
Gray220.png Bones of the left hand. Dorsal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1645_END_INCLUDE_IMAGE_
Gray221.png The left navicular bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1646_END_INCLUDE_IMAGE_
Gray222.png The left lunate bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1647_END_INCLUDE_IMAGE_
Gray223.png The left triangular bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1648_END_INCLUDE_IMAGE_
Gray224.png The left pisiform bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1649_END_INCLUDE_IMAGE_
Gray225.png The left greater multangular bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1650_END_INCLUDE_IMAGE_
Gray226.png The left lesser multangular bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1651_END_INCLUDE_IMAGE_
Gray227.png The left capitate bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1652_END_INCLUDE_IMAGE_
Gray228.png The left hamate bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1653_END_INCLUDE_IMAGE_
Gray229.png The first metacarpal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1654_END_INCLUDE_IMAGE_
Gray230.png The second metacarpal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1655_END_INCLUDE_IMAGE_
Gray231.png The third metacarpal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1656_END_INCLUDE_IMAGE_
Gray232.png The fourth metacarpal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1657_END_INCLUDE_IMAGE_
Gray233.png The fifth metacarpal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1658_END_INCLUDE_IMAGE_
Gray234.png Plan of ossification of the hand. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1659_END_INCLUDE_IMAGE_
Gray235.png Right hip bone. External surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1660_END_INCLUDE_IMAGE_
Gray236.png Right hip bone. Internal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1661_END_INCLUDE_IMAGE_
Gray237.png Plan of ossification of the hip bone. The three primary centers unite through a Y-shaped piece about puberty. Epiphyses appear about puberty, and unite about twenty-fifth year. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1662_END_INCLUDE_IMAGE_
Gray238.png Diameters of superior aperture of lesser pelvis (female). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1663_END_INCLUDE_IMAGE_
Gray239.png Diameters of inferior aperture of lesser pelvis (female). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1664_END_INCLUDE_IMAGE_
Gray240.png Median sagittal section of pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1665_END_INCLUDE_IMAGE_
Gray241.png Male pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1666_END_INCLUDE_IMAGE_
Gray242.png Female pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1667_END_INCLUDE_IMAGE_
Gray243.png Upper extremity of right femur viewed from behind and above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1668_END_INCLUDE_IMAGE_
Gray244.png Right femur. Anterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1669_END_INCLUDE_IMAGE_
Gray245.png Right femur. Posterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1670_END_INCLUDE_IMAGE_
Gray246.png Lower extremity of right femur viewed from below. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1671_END_INCLUDE_IMAGE_
Gray247.png Frontal longitudinal midsection of upper femur. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1672_END_INCLUDE_IMAGE_
Gray248.png Diagram of the lines of stress in the upper femur, based upon the mathematical analysis of the right femur. These result from the combination of the different kinds of stresses at each point in the femur. (After Koch.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1673_END_INCLUDE_IMAGE_
Gray249.png Frontal longitudinal midsection of left femur. Taken from the same subject as the one that was analyzed and shown in Figs. 248 and 250. 4/9 of natural size. (After Koch.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1674_END_INCLUDE_IMAGE_
Gray250.png Diagram of the computed lines of maximum stress in the normal femur. The section numbers 2, 4, 6, 8, etc., show the positions of the transverse sections analyzed. The amounts of the maximum tensile and compressive stress at the various sections are given for a load of 100 pounds on the femur-head. For the standing position (“at attention”) these stresses are multiplied by 0.6, for walking by 1.6 and for running by 3.2. (After Koch.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1675_END_INCLUDE_IMAGE_
Gray251.png Intensity of the maximum tensile and compressive stresses in the upper femur. Computed for the load of 100 pounds on the right femur. Corresponds to the upper part of Fig. 250. (After Koch.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1676_END_INCLUDE_IMAGE_
Gray252.png Plan of ossification of the femur. From five centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1677_END_INCLUDE_IMAGE_
Gray253.png Epiphysial lines of femur in a young adult. Anterior aspect. The lines of attachment of the articular capsules are in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1678_END_INCLUDE_IMAGE_
Gray254.png Epiphysial lines of femur in a young adult. Posterior aspect. The lines of attachment of the articular capsules are in blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1679_END_INCLUDE_IMAGE_
Gray255.png Right patella. Anterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1680_END_INCLUDE_IMAGE_
Gray256.png Right patella. Posterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1681_END_INCLUDE_IMAGE_
Gray257.png Upper surface of right tibia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1682_END_INCLUDE_IMAGE_
Gray258.png Bones of the right leg. Anterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1683_END_INCLUDE_IMAGE_
Gray259.png Bones of the right leg. Posterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1684_END_INCLUDE_IMAGE_
Gray260.png Plan of ossification of the tibia. From three centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1685_END_INCLUDE_IMAGE_
Gray261.png Epiphysial lines of tibia and fibula in a young adult. Anterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1686_END_INCLUDE_IMAGE_
Gray262.png Lower extremity of right fibula. Medial aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1687_END_INCLUDE_IMAGE_
Gray263.png Plan of ossification of the fibula. From three centers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1688_END_INCLUDE_IMAGE_
Gray264.png Left calcaneus, superior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1689_END_INCLUDE_IMAGE_
Gray265.png Left calcaneus, inferior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1690_END_INCLUDE_IMAGE_
Gray266.png Left calcaneus, lateral surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1691_END_INCLUDE_IMAGE_
Gray267.png Left calcaneus, medial surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1692_END_INCLUDE_IMAGE_
Gray268.png Bones of the right foot. Dorsal surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1693_END_INCLUDE_IMAGE_
Gray269.png Bones of the right foot. Plantar surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1694_END_INCLUDE_IMAGE_
Gray270.png Left talus, from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1695_END_INCLUDE_IMAGE_
Gray271.png Left talus, from below. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1696_END_INCLUDE_IMAGE_
Gray272.png Left talus, medial surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1697_END_INCLUDE_IMAGE_
Gray273.png Left talus, lateral surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1698_END_INCLUDE_IMAGE_
Gray274.png The left cuboid. Antero-medial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1699_END_INCLUDE_IMAGE_
Gray275.png The left cuboid. Postero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1700_END_INCLUDE_IMAGE_
Gray276.png The left navicular. Antero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1701_END_INCLUDE_IMAGE_
Gray277.png The left navicular. Postero-medial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1702_END_INCLUDE_IMAGE_
Gray278.png The left first cuneiform. Antero-medial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1703_END_INCLUDE_IMAGE_
Gray279.png The left first cuneiform. Postero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1704_END_INCLUDE_IMAGE_
Gray280.png The left second cuneiform. Antero-medial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1705_END_INCLUDE_IMAGE_
Gray281.png The left second cuneiform. Postero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1706_END_INCLUDE_IMAGE_
Gray282.png The left third cuneiform. Postero-medial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1707_END_INCLUDE_IMAGE_
Gray283.png The third left cuneiform. Antero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1708_END_INCLUDE_IMAGE_
Gray284.png The first metatarsal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1709_END_INCLUDE_IMAGE_
Gray285.png The second metatarsal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1710_END_INCLUDE_IMAGE_
Gray286.png The third metatarsal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1711_END_INCLUDE_IMAGE_
Gray287.png The fourth metatarsal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1712_END_INCLUDE_IMAGE_
Gray288.png The fifth metatarsal. (Left.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1713_END_INCLUDE_IMAGE_
Gray289.png Plan of ossification of the foot. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1714_END_INCLUDE_IMAGE_
Gray290.png Skeleton of foot. Medial aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1715_END_INCLUDE_IMAGE_
Gray291.png Skeleton of foot. Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1716_END_INCLUDE_IMAGE_
Gray292.png Human cartilage cells from the cricoid cartilage. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1717_END_INCLUDE_IMAGE_
Gray293.png Vertical section of articular cartilage. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1718_END_INCLUDE_IMAGE_
Gray294.png Costal cartilage from a man, aged seventy-six years, showing the development of fibrous structure in the matrix. In several portions of the specimen two or three generations of cells are seen enclosed in a parent cell wall. Highly magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1719_END_INCLUDE_IMAGE_
Gray295.png White fibrocartilage from an intervertebral fibrocartilage. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1720_END_INCLUDE_IMAGE_
Gray296.png Section across the sagittal suture. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1721_END_INCLUDE_IMAGE_
Gray297.png Section through occipitosphenoid synchondrosis of an infant. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1722_END_INCLUDE_IMAGE_
Gray298.png Diagrammatic section of a symphysis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1723_END_INCLUDE_IMAGE_
Gray299.png Diagrammatic section of a diarthrodial joint. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1724_END_INCLUDE_IMAGE_
Gray300.png Diagrammatic section of a diarthrodial joint, with an articular disk. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1725_END_INCLUDE_IMAGE_
Gray301.png Median sagittal section of two lumbar vertebræ and their ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1726_END_INCLUDE_IMAGE_
Gray302.png Posterior longitudinal ligament, in the thoracic region. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1727_END_INCLUDE_IMAGE_
Gray303.png Vertebral arches of three thoracic vertebræ viewed from the front. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1728_END_INCLUDE_IMAGE_
Gray304.png Anterior atlantoöccipital membrane and atlantoaxial ligament. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1729_END_INCLUDE_IMAGE_
Gray305.png Posterior atlantoöccipital membrane and atlantoaxial ligament. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1730_END_INCLUDE_IMAGE_
Gray306.png Articulation between odontoid process and atlas. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1731_END_INCLUDE_IMAGE_
Gray307.png Membrana tectoria, transverse, and alar ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1732_END_INCLUDE_IMAGE_
Gray308.png Median sagittal section through the occipital bone and first three cervical vertebræ. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1733_END_INCLUDE_IMAGE_
Gray309.png Articulation of the mandible. Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1734_END_INCLUDE_IMAGE_
Gray310.png Articulation of the mandible. Medial aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1735_END_INCLUDE_IMAGE_
Gray311.png Sagittal section of the articulation of the mandible. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1736_END_INCLUDE_IMAGE_
Gray312.png Costovertebral articulations. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1737_END_INCLUDE_IMAGE_
Gray313.png Costotransverse articulation. Seen from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1738_END_INCLUDE_IMAGE_
Gray314.png Section of the costotransverse joints from the third to the ninth inclusive. Constrast the concave facets on the upper with the flattened facets on the lower transverse processes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1739_END_INCLUDE_IMAGE_
Gray315.png Sternocostal and interchondral articulations. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1740_END_INCLUDE_IMAGE_
Gray316.png Lateral view of first and seventh ribs in position, showing the movements of the sternum and ribs in A, ordinary expiration; B, quiet inspiration; C, deep inspiration. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1741_END_INCLUDE_IMAGE_
Gray317.png Diagram showing the axes of movement (A B and C D) of a vertebrosternal rib. The interrupted lines indicate the position of the rib in inspiration. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1742_END_INCLUDE_IMAGE_
Gray318.png Diagram showing the axis of movement (A B) of a vertebrochondral rib. The interrupted lines indicate the position of the rib in inspiration. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1743_END_INCLUDE_IMAGE_
Gray319.png Articulations of pelvis. Anterior view. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1744_END_INCLUDE_IMAGE_
Gray320.png Articulatios of pelvis. Posterior view. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1745_END_INCLUDE_IMAGE_
Gray321.png Symphysis pubis exposed by a coronal section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1746_END_INCLUDE_IMAGE_
Gray322.png Coronal section of anterior sacral segment. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1747_END_INCLUDE_IMAGE_
Gray323.png Coronal section of middle sacra segment. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1748_END_INCLUDE_IMAGE_
Gray324.png Coronal section of posterior sacral segment. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1749_END_INCLUDE_IMAGE_
Gray325.png Sternoclavicular articulation. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1750_END_INCLUDE_IMAGE_
Gray326.png The left shoulder and acromioclavicular joints, and the proper ligaments of the scapula. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1751_END_INCLUDE_IMAGE_
Gray327.png Capsule of shoulder-joint (distended). Anterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1752_END_INCLUDE_IMAGE_
Gray328.png Glenoid fossa of right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1753_END_INCLUDE_IMAGE_
Gray329.png Left elbow-joint, showing anterior and ulnar collateral ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1754_END_INCLUDE_IMAGE_
Gray330.png Left elbow-joint, showing posterior and radial collateral ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1755_END_INCLUDE_IMAGE_
Gray331.png Capsule of elbow-joint (distended). Anterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1756_END_INCLUDE_IMAGE_
Gray332.png Capsule of elbow-joint (distended). Posterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1757_END_INCLUDE_IMAGE_
Gray333.png Annular ligament of radius, from above. The head of the radius has been sawn off and the bone dislodged from the ligament. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1758_END_INCLUDE_IMAGE_
Gray334.png Ligaments of wrist. Anterior view 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1759_END_INCLUDE_IMAGE_
Gray335.png Ligaments of wrist. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1760_END_INCLUDE_IMAGE_
Gray336.png Vertical section through the articulations at the wrist, showing the synovial cavities. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1761_END_INCLUDE_IMAGE_
Gray337.png Metacarpophalangeal articulation and articulations of digit. Volar aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1762_END_INCLUDE_IMAGE_
Gray338.png Metacarpophalangeal articulation and articulations of digit. Ulnar aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1763_END_INCLUDE_IMAGE_
Gray339.png Right hip-joint from the front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1764_END_INCLUDE_IMAGE_
Gray340.png The hip-joint from behind. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1765_END_INCLUDE_IMAGE_
Gray341.png Left hip-joint, opened by removing the floor of the acetabulum from within the pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1766_END_INCLUDE_IMAGE_
Gray342.png Hip-joint, front view. The capsular ligament has been largely removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1767_END_INCLUDE_IMAGE_
Gray343.png Capsule of hip-joint (distended). Posterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1768_END_INCLUDE_IMAGE_
Gray344.png Structures surrounding right hip-joint. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1769_END_INCLUDE_IMAGE_
Gray345.png Right knee-joint. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1770_END_INCLUDE_IMAGE_
Gray346.png Right knee-joint. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1771_END_INCLUDE_IMAGE_
Gray347.png Right knee-joint, from the front, showing interior ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1772_END_INCLUDE_IMAGE_
Gray348.png Left knee-joint from behind, showing interior ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1773_END_INCLUDE_IMAGE_
Gray349.png Head of right tibia seen from above, showing menisci and attachments of ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1774_END_INCLUDE_IMAGE_
Gray350.png Sagittal section of right knee-joint. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1775_END_INCLUDE_IMAGE_
Gray351.png Capsule of right knee-joint (distended). Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1776_END_INCLUDE_IMAGE_
Gray352.png Capsule of right knee-joint (distended). Posterior aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1777_END_INCLUDE_IMAGE_
Gray353.png Posterior surface of the right patella, showing diagrammatically the areas of contact with the femur in different positions of the knee. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1778_END_INCLUDE_IMAGE_
Gray354.png Ligaments of the medial aspect of the foot. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1779_END_INCLUDE_IMAGE_
Gray355.png The ligaments of the foot from the lateral aspect. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1780_END_INCLUDE_IMAGE_
Gray356.png Capsule of left talocrura articulation (distended). Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1781_END_INCLUDE_IMAGE_
Gray357.png Coronal section through right talocrural and talocalcaneal joints. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1782_END_INCLUDE_IMAGE_
Gray358.png Ligaments of the sole of the foot, with the tendons of the Peronæus longus, Tibialis posterior and Tibialis anterior muscles. (Quain.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1783_END_INCLUDE_IMAGE_
Gray359.png Talocalcaneal and talocalcaneonavicular articulations exposed from above by removing the talus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1784_END_INCLUDE_IMAGE_
Gray360.png Oblique section of left intertarsal and tarsometatarsal articulations, showing the synovial cavities. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1785_END_INCLUDE_IMAGE_
Gray361.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1786_END_INCLUDE_IMAGE_
Gray362.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1787_END_INCLUDE_IMAGE_
Gray363.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1788_END_INCLUDE_IMAGE_
Gray364.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1789_END_INCLUDE_IMAGE_
Gray365.png A, fusiform; B, unipinnate; C, bipinnate; P.C.S., physiological cross-section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1790_END_INCLUDE_IMAGE_
Gray366.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1791_END_INCLUDE_IMAGE_
Gray367.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1792_END_INCLUDE_IMAGE_
Gray368.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1793_END_INCLUDE_IMAGE_
Gray369.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1794_END_INCLUDE_IMAGE_
Gray370.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1795_END_INCLUDE_IMAGE_
Gray371.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1796_END_INCLUDE_IMAGE_
Gray372.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1797_END_INCLUDE_IMAGE_
Gray373.png Transverse section of human striped muscle fibers. x 255. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1798_END_INCLUDE_IMAGE_
Gray374.png Striped muscle fibers from tongue of cat. x 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1799_END_INCLUDE_IMAGE_
Gray375.png A. Portion of a medium-sized human muscular fiber. Magnified nearly 800 diameters. B. Separated bundles of fibrils, equally magnified. a, a. Larger, and b, b, smaller collections. c. Still smaller. d, d. The smallest which could be detached. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1800_END_INCLUDE_IMAGE_
Gray376.png Diagram of a sarcomere. (After Schäfer.) A. In moderately extended condition. B. In a contracted condition. k, k. Membranes of Krause. H. Line or plane of Hensen. S.E. Poriferous sarcous element. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1801_END_INCLUDE_IMAGE_
Gray377.png Subcutaneous tissue from a young rabbit. Highly magnified. (Schäfer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1802_END_INCLUDE_IMAGE_
Gray378.png Muscles of the head, face, and neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1803_END_INCLUDE_IMAGE_
Gray379.png Left orbicularis oculi, seen from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1804_END_INCLUDE_IMAGE_
Gray380.png Muscles of the pharynx and cheek. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1805_END_INCLUDE_IMAGE_
Gray381.png Scheme showing arrangement of fibers of Orbicularis oris. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1806_END_INCLUDE_IMAGE_
Gray382.png The Temporalis; the zygomatic arch and Masseter have been removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1807_END_INCLUDE_IMAGE_
Gray383.png The Pterygoidei; the zygomatic arch and a portion of the ramus of the mandible have been removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1808_END_INCLUDE_IMAGE_
Gray384.png Section of the neck at about the level of the sixth cervical vertebra. Showing the arrangement of the fascia coli. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1809_END_INCLUDE_IMAGE_
Gray385.png Muscles of the neck. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1810_END_INCLUDE_IMAGE_
Gray386.png Muscles of the neck. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1811_END_INCLUDE_IMAGE_
Gray387.png The anterior vertebral muscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1812_END_INCLUDE_IMAGE_
Gray388.png Diagram of a transverse section of the posterior abdominal wall, to show the disposition of the lumbodorsal fascia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1813_END_INCLUDE_IMAGE_
Gray389.png Deep muscles of the back. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1814_END_INCLUDE_IMAGE_
Gray390.png Posterior surface of sternum and costal cartilages, showing Transversus thoracis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1815_END_INCLUDE_IMAGE_
Gray391.png The diaphragm. Under surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1816_END_INCLUDE_IMAGE_
Gray392.png The Obliquus externus abdominis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1817_END_INCLUDE_IMAGE_
Gray393.png The subcutaneous inguinal ring. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1818_END_INCLUDE_IMAGE_
Gray394.png The inguinal and lacunar ligaments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1819_END_INCLUDE_IMAGE_
Gray395.png The Obliquus internus abdominis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1820_END_INCLUDE_IMAGE_
Gray396.png The Cremaster. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1821_END_INCLUDE_IMAGE_
Gray397.png The Transversus abdominis, Rectus abdominis, and Pyramidalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1822_END_INCLUDE_IMAGE_
Gray398.png The interfoveolar ligament, seen from in front. (Modified from Braune.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1823_END_INCLUDE_IMAGE_
Gray399.png Diagram of sheath of Rectus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1824_END_INCLUDE_IMAGE_
Gray400.png Diagram of a transverse section through the anterior abdomina wall, below the linea semicircularis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1825_END_INCLUDE_IMAGE_
Gray401.png The abdominal inguinal ring. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1826_END_INCLUDE_IMAGE_
Gray402.png Coronal section of pelvis, showing arrangement of fasciæ. Viewed from behind. (Diagrammatic.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1827_END_INCLUDE_IMAGE_
Gray403.png Median sagittal section of pelvis, showing arrangement of fasciæ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1828_END_INCLUDE_IMAGE_
Gray404.png Left Levator ani from within. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1829_END_INCLUDE_IMAGE_
Gray405.png The perineum. The integument and superficial layer of superficial fascia reflected. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1830_END_INCLUDE_IMAGE_
Gray406.png Muscles of male perineum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1831_END_INCLUDE_IMAGE_
Gray407.png Coronal section of anterior part of pelvis, through the pubic arch. Seen from in front. (Diagrammatic.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1832_END_INCLUDE_IMAGE_
Gray408.png Muscles of the female perineum. (Modified from a drawing by Peter Thompson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1833_END_INCLUDE_IMAGE_
Gray409.png Muscles connecting the upper extremity to the vertebral column. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1834_END_INCLUDE_IMAGE_
Gray410.png —Superficial muscles of the chest and front of the arm. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1835_END_INCLUDE_IMAGE_
Gray411.png Deep muscles of the chest and front of the arm, with the boundaries of the axilla. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1836_END_INCLUDE_IMAGE_
Gray412.png —Muscles on the dorsum of the scapula, and the Triceps brachii. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1837_END_INCLUDE_IMAGE_
Gray413.png Cross-section through the middle of upper arm. (Eycleshymer and Schoemaker. 84) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1838_END_INCLUDE_IMAGE_
Gray414.png Front of the left forearm. Superficial muscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1839_END_INCLUDE_IMAGE_
Gray415.png Front of the left forearm. Deep muscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1840_END_INCLUDE_IMAGE_
Gray416.png Tendons of forefinger and vincula tendina. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1841_END_INCLUDE_IMAGE_
Gray417.png Cross-section through the middle of the forearm. (Eycleshymer and Schoemaker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1842_END_INCLUDE_IMAGE_
Gray418.png Posterior surface of the forearm. Superficial muscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1843_END_INCLUDE_IMAGE_
Gray419.png Posterior surface of the forearm. Deep muscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1844_END_INCLUDE_IMAGE_
Gray420.png The Supinator. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1845_END_INCLUDE_IMAGE_
Gray421.png Transverse section across distal ends of radius and ulna. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1846_END_INCLUDE_IMAGE_
Gray422.png Transverse section across the wrist and digits. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1847_END_INCLUDE_IMAGE_
Gray423.png The mucous sheaths of the tendons on the front of the wrist and digits. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1848_END_INCLUDE_IMAGE_
Gray424.png The mucous sheaths of the tendons on the back of the wrist. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1849_END_INCLUDE_IMAGE_
Gray425.png The palmar aponeurosis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1850_END_INCLUDE_IMAGE_
Gray426.png The muscles of the thumb. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1851_END_INCLUDE_IMAGE_
Gray427.png The muscles of the left hand. Palmar surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1852_END_INCLUDE_IMAGE_
Gray428.png The Interossei dorsales of left hand. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1853_END_INCLUDE_IMAGE_
Gray429.png The Interossei volares of left hand. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1854_END_INCLUDE_IMAGE_
Gray430.png Muscles of the iliac and anterior femoral regions. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1855_END_INCLUDE_IMAGE_
Gray431.png The fossa ovalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1856_END_INCLUDE_IMAGE_
Gray432.png Cross-section through the middle of the thigh. (Eycleshymer and Schoemaker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1857_END_INCLUDE_IMAGE_
Gray433.png Deep muscles of the medial femoral region. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1858_END_INCLUDE_IMAGE_
Gray434.png Muscles of the gluteal and posterior femoral regions. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1859_END_INCLUDE_IMAGE_
Gray435.png The obturator membrane. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1860_END_INCLUDE_IMAGE_
Gray436.png The Obturator externus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1861_END_INCLUDE_IMAGE_
Gray437.png Muscles of the front of the leg. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1862_END_INCLUDE_IMAGE_
Gray438.png Muscles of the back of the leg. Superficial layer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1863_END_INCLUDE_IMAGE_
Gray439.png Muscles of the back of the leg. Deep layer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1864_END_INCLUDE_IMAGE_
Gray440.png Cross-section through middle of leg. (Eycleshymer and Schoemaker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1865_END_INCLUDE_IMAGE_
Gray441.png The mucous sheaths of the tendons around the ankle. Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1866_END_INCLUDE_IMAGE_
Gray442.png The mucous sheaths of the tendons around the ankle. Medial aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1867_END_INCLUDE_IMAGE_
Gray443.png Muscles of the sole of the foot. First layer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1868_END_INCLUDE_IMAGE_
Gray444.png Muscles of the sole of the foot. Second layer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1869_END_INCLUDE_IMAGE_
Gray445.png Muscles of the sole of the foot. Third layer. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1870_END_INCLUDE_IMAGE_
Gray446.png The Interossei dorsales. Left foot. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1871_END_INCLUDE_IMAGE_
Gray447.png The Interossei plantares. Left foot. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1872_END_INCLUDE_IMAGE_
Gray448.png Transverse section through a small artery and vein of the mucous membrane of the epiglottis of a child. X 350. (Klein and Noble Smith.) A. Artery, showing the nucleated endothelium, e, which lines it; the vessel being contracted, the endothelial cells appear very thick. Underneath the endothelium is the wavy elastic lamina. The chief part of the wall of the vessel is occupied by the circular muscle coat m; the rod-shaped nuclei of the muscle cells are well seen. Outside this is a, part of the adventitia. This is composed of bundles of connective tissue fibers, shown in section, with the nuclei of the connective tissue corpuscles. The adventitia gradually merges into the surrounding connective tissue. V. Vein showing a thin endothelial membrane, e, raised accidentally from the intima, which on account of its delicacy is seen as a mere line on the media m. This latter is composed of a few circular unstriped muscle cells a. The adventitia, similar in structure to that of an artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1873_END_INCLUDE_IMAGE_
Gray449.png Small artery and vein, pia mater of sheep. X 250. Surface view above the interrupted line; longitudinal section below. Artery in red; vein in blue, 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1874_END_INCLUDE_IMAGE_
Gray450.png Section of a medium-sized artery. (After Grünstein.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1875_END_INCLUDE_IMAGE_
Gray451.png Capillaries from the mesentery of a guinea-pig, after treatment with solution of nitrate of silver. a. Cells. b. Their nuclei. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1876_END_INCLUDE_IMAGE_
Gray452.png Section of a medium-sized vein. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1877_END_INCLUDE_IMAGE_
Gray453.png Human red blood corpuscles. Highly magnified. a. Seen from the surface. b. Seen in profile and forming rouleaux. c. Rendered spherical by water. d. Rendered crenate by salt solution. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1878_END_INCLUDE_IMAGE_
Gray454.png Varieties of leucocytes found in human blood. Highly magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1879_END_INCLUDE_IMAGE_
Gray455.png Human colorles blood corpuscle, showing its successive changes of outline within ten minutes when kept moist on a warm stage. (Schofield.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1880_END_INCLUDE_IMAGE_
Gray456.png Blood platelets. Highly magnified. (After Kopsch.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1881_END_INCLUDE_IMAGE_
Gray457.png Transverse section through the region of the heart in a rabbit embryo of nine days. X 80. (Kölliker.) j, j. Jugular veins. ao. Aorta. ph. Pharynx. som. Somatopleure. bl. Proamnion. ect. Ectoderm. ent. Entoderm. p. Pericardium. spl. Splanchnopleure. ah. Outer wall of heart. ih. Endothelial lining of heart. é. Septum between heart tubes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1882_END_INCLUDE_IMAGE_
Gray458.png Diagram of the vascular channels in a human embryo of the second week. (After Eternod.) The red lines are the dorsal aortæ continued into the umbilical arteries. The red dotted lines are the ventral aortæ, and the blue dotted lines the vitelline veins. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1883_END_INCLUDE_IMAGE_
Gray459.png Human embryo of about fourteen days, with yolk-sac. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1884_END_INCLUDE_IMAGE_
Gray460.png Head of chick embryo of about thirty-eight hours’ incubation, viewed from the ventral surface. X 26 (Duval.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1885_END_INCLUDE_IMAGE_
Gray461.png Diagram to illustrate the simple tubular condition of the heart. (Drawn from Ecker-Ziegler model.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1886_END_INCLUDE_IMAGE_
Gray462.png Heart of human embryo of about fourteen days. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1887_END_INCLUDE_IMAGE_
Gray463.png Heart of human embryo of about fifteen days. (Reconstruction by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1888_END_INCLUDE_IMAGE_
Gray464.png Dorsal surface of heart of human embryo of thirty-five days. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1889_END_INCLUDE_IMAGE_
Gray465.png Interior of dorsal half of heart from a human embryo of about thirty days. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1890_END_INCLUDE_IMAGE_
Gray466.png Heart showing expansion of the atria. (Drawn from Ecker-Zeigler model.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1891_END_INCLUDE_IMAGE_
Gray467.png Interior of dorsal half of heart of human embryo of about thirty-five days. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1892_END_INCLUDE_IMAGE_
Gray468.png Same heart as in 467, opened on right side. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1893_END_INCLUDE_IMAGE_
Gray469.png Diagrams to illustrate the transformation of the bulbus cordis. (Keith.) Ao. Truncus arteriosus. Au. Atrium. B. Bulbus cordis. RV. Right ventricle. LV. Left ventricle. P. Pulmonary artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1894_END_INCLUDE_IMAGE_
Gray470.png Diagrams to show the development of the septum of the aortic bulb and of the ventricles. (Born.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1895_END_INCLUDE_IMAGE_
Gray471.png Transverse sections through the aortic bulb to show the growth of the aortic septum. The lowest section is on the left, the highest on the right of the figure. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1896_END_INCLUDE_IMAGE_
Gray472.png Profile view of a human embryo estimated at twenty or twenty-one days old. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1897_END_INCLUDE_IMAGE_
Gray473.png Scheme of the aortic arches and their destination. (Modified from Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1898_END_INCLUDE_IMAGE_
Gray474.png Diagram showing the origins of the main branches of the carotid arteries. (Founded on Tandler.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1899_END_INCLUDE_IMAGE_
Gray475.png The liver and the veins in connection with it, of a human embryo, twenty-four or twenty-five days old, as seen from the ventral surface. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1900_END_INCLUDE_IMAGE_
Gray476.png Human embryo with heart and anterior body-wall removed to show the sinus venosus and its tributaries. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1901_END_INCLUDE_IMAGE_
Gray477.png Scheme of arrangement of parietal veins. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1902_END_INCLUDE_IMAGE_
Gray478.png Scheme showing early stages of development of the inferior vena cava. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1903_END_INCLUDE_IMAGE_
Gray479.png Diagram showing development of main cross branches between jugulars and between cardinals. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1904_END_INCLUDE_IMAGE_
Gray480.png Diagram showing completion of development of the parietal veins. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1905_END_INCLUDE_IMAGE_
Gray481.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1906_END_INCLUDE_IMAGE_
Gray482.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1907_END_INCLUDE_IMAGE_
Gray483.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1908_END_INCLUDE_IMAGE_
Gray484.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1909_END_INCLUDE_IMAGE_
Gray485.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1910_END_INCLUDE_IMAGE_
Gray486.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1911_END_INCLUDE_IMAGE_
Gray487.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1912_END_INCLUDE_IMAGE_
Gray488.png Profile drawings of the dural veins showing principal stages in their development in human embryos from 4 mm. to birth. It is of particular interest to notice their adaptation to the growth and changes in the form of the central nervous system. Fig. 481, 4 mm.; Fig. 482, 14 mm.; Fig. 483, 18 mm.; Fig. 484, 21 mm.; Fig. 485, 35 mm.; Fig. 486, 50 mm. crown-rump length; Fig. 487, 80 mm. crown-rump length; Fig. 488, adult. (After Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1913_END_INCLUDE_IMAGE_
Gray489.png Posterior wall of the pericardial sac, showing the lines of reflection of the serous pericardium on the great vessels. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1914_END_INCLUDE_IMAGE_
Gray490.png Front view of heart and lungs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1915_END_INCLUDE_IMAGE_
Gray491.png Base and diaphragmatic surface of heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1916_END_INCLUDE_IMAGE_
Gray492.png Sternocostal surface of heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1917_END_INCLUDE_IMAGE_
Gray493.png Interior of right side of heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1918_END_INCLUDE_IMAGE_
Gray494.png Heart seen from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1919_END_INCLUDE_IMAGE_
Gray495.png Base of ventricles exposed by removal of the atria. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1920_END_INCLUDE_IMAGE_
Gray496.png Interior of left side of heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1921_END_INCLUDE_IMAGE_
Gray497.png Aorta laid open to show the semilunar valves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1922_END_INCLUDE_IMAGE_
Gray498.png Section of the heart showing the ventricular septum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1923_END_INCLUDE_IMAGE_
Gray499.png Anastomosing muscular fibers of the heart seen in a longitudinal section. On the right the limits of the separate cells with their nuclei are exhibited somewhat diagrammatically. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1924_END_INCLUDE_IMAGE_
Gray500.png Purkinje’s fibers from the sheep’s heart. A. In longitudinal section. B. In transverse section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1925_END_INCLUDE_IMAGE_
Gray501.png Schematic representation of the atrioventricular bundle of His. The bundle, represented in red originates near the orifice of the coronary sinus, undergoes slight enlargement to form a node, passes forward to the ventricular septum, and divides into two limbs. The ultimate distribution cannot be completely shown in this diagram. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1926_END_INCLUDE_IMAGE_
Gray502.png Plan of the fetal circulation. In this plan the figured arrows represent the kind of blood, as well as the direction which it takes in the vessles. Thus—arterial blood is figured >—>; venous blood, >—>; mixed (arterial and venous) blood, >—>. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1927_END_INCLUDE_IMAGE_
Gray503.png Transverse section of thorax, showing relations of pulmonary artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1928_END_INCLUDE_IMAGE_
Gray504.png Pulmonary vessels, seen in a dorsal view of the heart and lungs. The lungs have been pulled away from the median line, and a part of the right lung has been cut away to display the air-ducts and bloodvessels. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1929_END_INCLUDE_IMAGE_
Gray505.png The arch of the aorta, and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1930_END_INCLUDE_IMAGE_
Gray506.png Plan of the branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1931_END_INCLUDE_IMAGE_
Gray507.png Superficial dissection of the right side of the neck, showing the carotid and subclavian arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1932_END_INCLUDE_IMAGE_
Gray508.png The arteries of the face and scalp. 98 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1933_END_INCLUDE_IMAGE_
Gray509.png The labial coronary arteries, the glands of the lips, and the nerves of the right side seen from the posterior surface after removal of the mucous membrane. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1934_END_INCLUDE_IMAGE_
Gray510.png Plan of branches of internal maxillary artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1935_END_INCLUDE_IMAGE_
Gray511.png Plan of branches of internal maxillary artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1936_END_INCLUDE_IMAGE_
Gray512.png The triangles of the neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1937_END_INCLUDE_IMAGE_
Gray513.png The internal carotid and vertebral arteries. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1938_END_INCLUDE_IMAGE_
Gray514.png The ophthalmic artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1939_END_INCLUDE_IMAGE_
Gray515.png Bloodvessels of the eyelids, front view. 1, supraorbital artery and vein; 2, nasal artery; 3, angular artery, the terminal branch of 4, the facial artery; 5, suborbital artery; 6, anterior branch of the superficial temporal artery; 6’, malar branch of the transverse artery of the face; 7, lacrimal artery; 8, superior palpebral artery with 8’, its external arch; 9, anastomoses of the superior palpebral with the superficial temporal and lacrimal; 10, inferior palpebral artery; 11, facial vein; 12, angular vein; 13, branch of the superficial temporal vein. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1940_END_INCLUDE_IMAGE_
Gray516.png The arteries of the base of the brain. The tempora pole of the cerebrum and a portion of the cerebellar hemisphere have been removed on the right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1941_END_INCLUDE_IMAGE_
Gray517.png Outer surface of cerebral hemisphere, showing areas supplied by cerebral arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1942_END_INCLUDE_IMAGE_
Gray518.png Medial surface of cerebral hemisphere, showing areas supplied by cerebral arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1943_END_INCLUDE_IMAGE_
Gray519.png Diagram of the arterial circulation at the base of the brain. A.L. Antero-lateral. A.M. Antero-medial. P.L. Postero-lateral. P.M. Posteromedial ganglionic branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1944_END_INCLUDE_IMAGE_
Gray520.png Superficial dissection of the right side of the neck, showing the carotid and subclavian arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1945_END_INCLUDE_IMAGE_
Gray521.png The scapular and circumflex arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1946_END_INCLUDE_IMAGE_
Gray522.png The internal mammary artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1947_END_INCLUDE_IMAGE_
Gray523.png The axillary artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1948_END_INCLUDE_IMAGE_
Gray524.png The scapular and circumflex arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1949_END_INCLUDE_IMAGE_
Gray525.png The brachial artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1950_END_INCLUDE_IMAGE_
Gray526.png Diagram of the anastomosis around the elbow-joint. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1951_END_INCLUDE_IMAGE_
Gray527.png The radial and ulnar arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1952_END_INCLUDE_IMAGE_
Gray528.png Ulnar and radial arteries. Deep view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1953_END_INCLUDE_IMAGE_
Gray529.png Arteries of the back of the forearm and hand. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1954_END_INCLUDE_IMAGE_
Gray530.png The thoracic aorta, viewed from the left side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1955_END_INCLUDE_IMAGE_
Gray531.png The abdominal aorta and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1956_END_INCLUDE_IMAGE_
Gray532.png The celiac artery and its branches; the liver has been raised, and the lesser omentum and anterior layer of the greater omentum removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1957_END_INCLUDE_IMAGE_
Gray533.png The celiac artery and its branches; the stomach has been raised and the peritoneum removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1958_END_INCLUDE_IMAGE_
Gray534.png The superior mesenteric artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1959_END_INCLUDE_IMAGE_
Gray535.png Loop of small intestine showing distribution of intestinal arteries. (From a preparation by Mr. Hamilton Drummond.) The vessels were injected while the gut was in situ; the gut was then removed, and an x-ray photograph taken. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1960_END_INCLUDE_IMAGE_
Gray536.png Arteries of cecum and vermiform process. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1961_END_INCLUDE_IMAGE_
Gray537.png The inferior mesenteric artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1962_END_INCLUDE_IMAGE_
Gray538.png Sigmoid colon and rectum, showing distribution of branches of inferior mesenteric artery and their anastomoses. (From a preparation by Mr. Hamilton Drummond.) Prepared in same manner as Fig. 535 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1963_END_INCLUDE_IMAGE_
Gray539.png The arteries of the pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1964_END_INCLUDE_IMAGE_
Gray540.png The arteries of the internal organs of generation of the female, seen from behind. (After Hyrtl.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1965_END_INCLUDE_IMAGE_
Gray541.png Variations in origin and course of obturator artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1966_END_INCLUDE_IMAGE_
Gray542.png The superficial branches of the internal pudendal artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1967_END_INCLUDE_IMAGE_
Gray543.png The deeper branches of the internal pudendal artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1968_END_INCLUDE_IMAGE_
Gray544.png The arteries of the gluteal and posterior femoral regions. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1969_END_INCLUDE_IMAGE_
Gray545.png Femoral sheath laid open to show its three compartments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1970_END_INCLUDE_IMAGE_
Gray546.png Structures passing behind the inguinal ligament. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1971_END_INCLUDE_IMAGE_
Gray547.png The relations of the femoral and abdominal inguinal rings, seen from within the abdomen. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1972_END_INCLUDE_IMAGE_
Gray548.png Scheme of the femoral artery. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1973_END_INCLUDE_IMAGE_
Gray549.png The left femoral triangle. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1974_END_INCLUDE_IMAGE_
Gray550.png The femoral artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1975_END_INCLUDE_IMAGE_
Gray551.png The popliteal, posterior tibial, and peroneal arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1976_END_INCLUDE_IMAGE_
Gray552.png Circumpatellar anastomosis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1977_END_INCLUDE_IMAGE_
Gray553.png Anterior tibial and dorsalis pedis arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1978_END_INCLUDE_IMAGE_
Gray554.png The plantar arteries. Superficial view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1979_END_INCLUDE_IMAGE_
Gray555.png The plantar arteries. Deep view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1980_END_INCLUDE_IMAGE_
Gray556.png Base and diaphragmatic surface of heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1981_END_INCLUDE_IMAGE_
Gray557.png Veins of the head and neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1982_END_INCLUDE_IMAGE_
Gray558.png The veins of the neck, viewed from in front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1983_END_INCLUDE_IMAGE_
Gray559.png Veins of the tongue. The hypoglossal nerve has been displaced downward in this preparation. (Testut after Hirschfeld.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1984_END_INCLUDE_IMAGE_
Gray560.png The veins of the thyroid gland. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1985_END_INCLUDE_IMAGE_
Gray561.png Diagram showing common arrangement of thyroid veins. (Kocher.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1986_END_INCLUDE_IMAGE_
Gray562.png The fascia and middle thyroid veins. The veins here designated the inferior thyroid are called by Kocher the thyroidea ima. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1987_END_INCLUDE_IMAGE_
Gray563.png The vertebral vein. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1988_END_INCLUDE_IMAGE_
Gray564.png Veins of the diploë as displayed by the removal of the outer table of the skull. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1989_END_INCLUDE_IMAGE_
Gray565.png Velum interpositum. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1990_END_INCLUDE_IMAGE_
Gray566.png Superior sagittal sinus laid open after remova of the skull cap. The chordæ Willisii are clearly seen. The venous lacunæ are also well shown; from two of them probes are passed into the superior sagittal sinus. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1991_END_INCLUDE_IMAGE_
Gray567.png Dura mater and its processes exposed by removing part of the right half of the skull, and the brain. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1992_END_INCLUDE_IMAGE_
Gray568.png Sagittal section of the skull, showing the sinuses of the dura. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1993_END_INCLUDE_IMAGE_
Gray569.png Tentorium cerebelli from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1994_END_INCLUDE_IMAGE_
Gray570.png The sinuses at the base of the skull. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1995_END_INCLUDE_IMAGE_
Gray571.png Oblique section through the cavernous sinus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1996_END_INCLUDE_IMAGE_
Gray572.png Veins of orbit. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1997_END_INCLUDE_IMAGE_
Gray573.png The veins on the dorsum of the hand. (Bourgery.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1998_END_INCLUDE_IMAGE_
Gray574.png The superficial veins of the upper extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_1999_END_INCLUDE_IMAGE_
Gray575.png The deep veins of the upper extremity. (Bourgery.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2000_END_INCLUDE_IMAGE_
Gray576.png The veins of the right axilla, viewed from in front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2001_END_INCLUDE_IMAGE_
Gray577.png The venæ cavæ and azygos veins, with their tributaries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2002_END_INCLUDE_IMAGE_
Gray578.png Transverse section of a thoracic vertebra, showing the vertebral venous plexuses. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2003_END_INCLUDE_IMAGE_
Gray579.png Median sagittal section of two thoracic vertebræ, showing the vertebral venous plexuses. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2004_END_INCLUDE_IMAGE_
Gray580.png The great saphenous vein and its tributaries at the fossa ovalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2005_END_INCLUDE_IMAGE_
Gray581.png The great saphenous vein and its tributaries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2006_END_INCLUDE_IMAGE_
Gray582.png The small saphenous vein. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2007_END_INCLUDE_IMAGE_
Gray583.png The popliteal vein. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2008_END_INCLUDE_IMAGE_
Gray584.png The femoral vein and its tributaries. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2009_END_INCLUDE_IMAGE_
Gray585.png The veins of the right half of the male pelvis. (Spalteholz). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2010_END_INCLUDE_IMAGE_
Gray586.png The iliac veins. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2011_END_INCLUDE_IMAGE_
Gray587.png Scheme of the anastomosis of the veins of the rectum. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2012_END_INCLUDE_IMAGE_
Gray588.png The penis in transverse section, showing the bloodvessels. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2013_END_INCLUDE_IMAGE_
Gray589.png Vessels of the uterus and its appendages, rear view. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2014_END_INCLUDE_IMAGE_
Gray590.png Spermatic veins. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2015_END_INCLUDE_IMAGE_
Gray591.png The portal vein and its tributaries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2016_END_INCLUDE_IMAGE_
Gray592.png Scheme showing relative positions of primary lymph sacs based on the description given by Florence Sabin. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2017_END_INCLUDE_IMAGE_
Gray593.png Lymph capillaries of the human conjunctiva: a, conjunctiva corneæ; b, conjunctiva scleroticæ. X 40 dia. (Teichmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2018_END_INCLUDE_IMAGE_
Gray594.png Lymph capillaries from the human scrotum, showing also transition from capillaries to the collecting vessels a, a. X 20 dia. (Teichmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2019_END_INCLUDE_IMAGE_
Gray595.png Lymph capillaries of the cutis from the inner border of the sole of the human foot. a, a, outer layer; b, b, inner layer. X 30 dia. (Teichmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2020_END_INCLUDE_IMAGE_
Gray596.png Vertical section through human tongue; a, a, blind lymph capillaries in the filiform papillæ with the underlying lymphatic plexus. X 45. (Teichmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2021_END_INCLUDE_IMAGE_
Gray597.png Section of small lymph gland of rabbit. X 100. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2022_END_INCLUDE_IMAGE_
Gray598.png Lymph gland tissue. Highly magnified. a, Trabeculæ. b. Small artery in substance of same. c. Lymph paths. d. Lymph corpuscles. e. Capillary plexus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2023_END_INCLUDE_IMAGE_
Gray599.png The thoracic and right lymphatic ducts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2024_END_INCLUDE_IMAGE_
Gray600.png Modes of origin of thoracic duct. (Poirier and Charpy.) a. Thoracic duct. a’. Cisterna chyli. b, c’ Efferent trunks from lateral aortic glands. d. An efferent vessel which pierces the left crus of the diaphragm. e. f. Lateral aortic glands. h. Retroaortic glands. i. Intestinal trunk. j. Descending branch from intercostal lymphatics. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2025_END_INCLUDE_IMAGE_
Gray601.png Terminal collecting trunks of right side. a. Jugular trunk. b. Subclavian trunk. c. Bronchomediastinal trunk. d. Right lymphatic trunk. e. Gland of internal mammary chain. f. Gland of deep cervical chain. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2026_END_INCLUDE_IMAGE_
Gray602.png Superficial lymph glands and lymphatic vessels of head and neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2027_END_INCLUDE_IMAGE_
Gray603.png Lymphatics of pharynx. (Poirier and Charpy. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2028_END_INCLUDE_IMAGE_
Gray604.png The lymphatics of the face. (After Küttner.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2029_END_INCLUDE_IMAGE_
Gray605.png Lymphatics of the tongue. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2030_END_INCLUDE_IMAGE_
Gray606.png The superficial lymph glands and lymphatic vessels of the upper extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2031_END_INCLUDE_IMAGE_
Gray607.png Lymphatics of the mamma, and the axillary glands (semidiagrammatic). (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2032_END_INCLUDE_IMAGE_
Gray608.png Lymphatic vessels of the dorsal surface of the hand. (Sappey.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2033_END_INCLUDE_IMAGE_
Gray609.png Lymph glands of popliteal fossa. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2034_END_INCLUDE_IMAGE_
Gray610.png The superficial lymph glands and lymphatic vessels of the lower extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2035_END_INCLUDE_IMAGE_
Gray611.png The parietal lymph glands of the pelvis. (Cunéo and Marcille.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2036_END_INCLUDE_IMAGE_
Gray612.png Iliopelvic glands (lateral view). (Cunéo and Marcille.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2037_END_INCLUDE_IMAGE_
Gray613.png Lymphatics of stomach, etc. (Jamieson and Dobson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2038_END_INCLUDE_IMAGE_
Gray614.png Lymphatics of stomach, etc. The stomach has been turned upward. (Jamieson and Dobson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2039_END_INCLUDE_IMAGE_
Gray615.png The lymphatics of cecum and vermiform process from the front. (Jamieson and Dobson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2040_END_INCLUDE_IMAGE_
Gray616.png The lymphatics of cecum and vermiform process from behind. (Jamieson and Dobson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2041_END_INCLUDE_IMAGE_
Gray617.png Lymphatics of colon. (Jamieson and Dobson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2042_END_INCLUDE_IMAGE_
Gray618.png Lymphatics of the bladder. (Cunéo and Marcille.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2043_END_INCLUDE_IMAGE_
Gray619.png Lymphatics of the prostate. (Cunéo and Marcille.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2044_END_INCLUDE_IMAGE_
Gray620.png Lymphatics of the uterus. (Cunéo and Marcille.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2045_END_INCLUDE_IMAGE_
Gray621.png Deep lymph nodes and vessels of the thorax and abdomen (diagrammatic). Afferent vessels are represented by continuous lines, and efferent and internodular vessels by dotted lines. (Cunningham.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2046_END_INCLUDE_IMAGE_
Gray622.png The tracheobronchial lymph glands. (From a figure designed by M. Hallé.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2047_END_INCLUDE_IMAGE_
Gray623.png Neuroglia cells of brain shown by Golgi’s method. A. Cell with branched processes. B. Spider cell with unbranched processes. (After Andriezen.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2048_END_INCLUDE_IMAGE_
Gray624.png Various forms of nerve cells. A. Pyramidal cell. B. Small multipolar cell, in which the axon quickly divides into numerous branches. C. Small fusiform cell. D and E. Ganglion cells (E shows T-shaped division of axon). ax. Axon. c. Capsule. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2049_END_INCLUDE_IMAGE_
Gray625.png Bipolar nerve cell from the spinal ganglion of the pike. (After Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2050_END_INCLUDE_IMAGE_
Gray626.png Motor nerve cell from ventral horn of medulla spinalis of rabbit. The angular and spindle-shaped Nissl bodies are well shown. (After Nissl.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2051_END_INCLUDE_IMAGE_
Gray627.png Pyramidal cell from the cerebral cortex of a mouse. (After Ramón y Cajal.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2052_END_INCLUDE_IMAGE_
Gray628.png Cell of Purkinje from the cerebellum. Golgi method. (Cajal.) a. Axon. b. Collateral. c and d. Dendrons. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2053_END_INCLUDE_IMAGE_
Gray629.png Nerve cells of kitten, showing neurofibrils. (Cajal.) a. Axon. b. Cyton. c. Nucleus. d. Neurofibrils. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2054_END_INCLUDE_IMAGE_
Gray630.png Medullated nerve fibers. X 350. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2055_END_INCLUDE_IMAGE_
Gray631.png Diagram of longitudinal sections of medullated nerve fibers. Osmic acid. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2056_END_INCLUDE_IMAGE_
Gray632.png Transverse sections of medullated nerve fibers. Osmic acid. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2057_END_INCLUDE_IMAGE_
Gray633.png Diagram of medullated nerve fibers stained with osmic acid. X 425. (Schäfer.) R. Nodes of Ranvier. a. Neurolemma. c. Nucleus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2058_END_INCLUDE_IMAGE_
Gray634.png Medullated nerve fibers stained with silver nitrate. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2059_END_INCLUDE_IMAGE_
Gray635.png A small nervous branch from the sympathetic of a mammal. a. Two medullated nerve fibers among a number of gray nerve fibers, b. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2060_END_INCLUDE_IMAGE_
Gray636.png Transverse section of human tibial nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2061_END_INCLUDE_IMAGE_
Gray637.png Muscular fibers of Lacerta viridis with the terminations of nerves. a. Seen in profile. P, P. The nerve end-plates. S, S. The base of the plate, consisting of a granular mass with nuclei. b. The same as seen in looking at a perfectly fresh fiber, the nervous ends being probably still excitable. (The forms of the variously divided plate can hardly be represented in a woodcut by sufficiently delicate and pale contours to reproduce correctly what is seen in nature.) c. The same as seen two hours after death from poisoning by curare. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2062_END_INCLUDE_IMAGE_
Gray638.png Transverse section of spinal ganglion of rabbit. A. Ganglion. X 30. a. Large clear nerve cell. b. Small deeply staining nerve cell. c. Nuclei of capsule. X 250. The lines in the center point to the corresponding cells in the ganglion. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2063_END_INCLUDE_IMAGE_
Gray639.png Transverse section of sympathetic ganglion of cat. A. Ganglion. X 50. a. A nerve cell. X 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2064_END_INCLUDE_IMAGE_
Gray640.png Section of medulla spinalis of a four weeks’ embryo. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2065_END_INCLUDE_IMAGE_
Gray641.png Transverse section of the medulla spinalis of a human embryo at the beginning of the fourth week. The left edge of the figure corresponds to the lining of the central canal. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2066_END_INCLUDE_IMAGE_
Gray642.png aged about four and a half weeks. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2067_END_INCLUDE_IMAGE_
Gray643.png aged about three months. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2068_END_INCLUDE_IMAGE_
Gray644.png Two stages in the development of the neural crest in the human embryo. (Lenhossèk.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2069_END_INCLUDE_IMAGE_
Gray645.png Reconstruction of periphera nerves of a human embryo of 10.2 mm. (After His.) The abducent nerve is not labelled, but is seen passing forward to the eye under the mandibular and maxillary nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2070_END_INCLUDE_IMAGE_
Gray646.png Diagram to illustrate the alar and basal laminæ of brain vesicles. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2071_END_INCLUDE_IMAGE_
Gray647.png Transverse section of medulla oblongata of human embryo. X 32. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2072_END_INCLUDE_IMAGE_
Gray648.png Transverse section of medulla oblongata of human embryo. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2073_END_INCLUDE_IMAGE_
Gray649.png Hind-brain of a human embryo of three months—viewed from behind and partly from left side. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2074_END_INCLUDE_IMAGE_
Gray650.png Exterior of brain of human embryo of four and a half weeks. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2075_END_INCLUDE_IMAGE_
Gray651.png Brain of human embryo of four and a half weeks, showing interior of fore-brain. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2076_END_INCLUDE_IMAGE_
Gray652.png Exterior of brain of human embryo of five weeks. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2077_END_INCLUDE_IMAGE_
Gray653.png Interior of brain of human embryo of five weeks. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2078_END_INCLUDE_IMAGE_
Gray654.png Median sagittal section of brain of human embryo of three months. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2079_END_INCLUDE_IMAGE_
Gray655.png Inferior surface of brain of embryo at beginning of fourth month. (From Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2080_END_INCLUDE_IMAGE_
Gray656.png Diagrammatic coronal section of brain to show relations of neopallium. (After His.) Cs. Corpus striatum. Th. Thalamus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2081_END_INCLUDE_IMAGE_
Gray657.png Median sagittal section of brain of human embryo of four months. (Marchand.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2082_END_INCLUDE_IMAGE_
Gray658.png Outer surface of cerebral hemisphere of human embryo of about five months. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2083_END_INCLUDE_IMAGE_
Gray659.png Transverse section of medulla oblongata of human embryo. X 32. (Kollmann) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2084_END_INCLUDE_IMAGE_
Gray660.png Transverse section of medulla oblongata of human embryo. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2085_END_INCLUDE_IMAGE_
Gray661.png Sagittal section of vertebral canal to show the lower end of the medulla spinalis and the filum terminale. Li, Lv. First and fifth lumbar vertebræ. Sii. Second sacral vertebra. 1. Dura mater. 2. Lower part of tube of dura mater. 3. Lower extremity of medulla spinalis. 4. Intradural, and 5, Extradural portions of filum terminale. 6. Attachment of filum terminale to first segment of coccyx. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2086_END_INCLUDE_IMAGE_
Gray662.png Cauda equina and filum terminale seen from behind. The dura mater has been opened and spread out, and the arachnoid has been removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2087_END_INCLUDE_IMAGE_
Gray663.png Diagrams of the medulla spinalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2088_END_INCLUDE_IMAGE_
Gray664.png Transverse section of the medulla spinalis in the mid-thoracic region. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2089_END_INCLUDE_IMAGE_
Gray665.png Curves showing the sectional area at different levels of the cord. The ordinates show the area in sq. mm. (Donaldson and Davis.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2090_END_INCLUDE_IMAGE_
Gray666.png Transverse sections of the medulla spinalis at different levels. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2091_END_INCLUDE_IMAGE_
Gray667.png Section of central canal of medulla spinalis, showing ependymal and neuroglial cells. (v. Lenhossek.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2092_END_INCLUDE_IMAGE_
Gray668.png Cells of medulla spinalis. Diagram showing in longitudinal section the intersegmental neurons of the medulla spinalis. The gray and white parts correspond respectively to the gray and white substance of the medulla spinalis. (Poirier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2093_END_INCLUDE_IMAGE_
Gray669.png Diagram showing a few of the connections of afferent (sensory) fibers of the posterior root with the efferent fibers from the ventral column and with the various long ascending fasciculi. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2094_END_INCLUDE_IMAGE_
Gray670.png Diagram showing possible connection of long descending fibers from higher centers with the motor cells of the ventral column through association fibers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2095_END_INCLUDE_IMAGE_
Gray671.png Transverse sections of the medulla spinalis at different levels to show the arrangement of the principal cell columns. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2096_END_INCLUDE_IMAGE_
Gray672.png Diagram of the principal fasciculi of the spinal cord. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2097_END_INCLUDE_IMAGE_
Gray673.png Formation of the fasciculus gracilis. Medulla spinalis viewed from behind. To the left, the fasciculus gracilis is shaded. To the right, the drawing shows that the fasciculus gracilis is formed by the long fibers of the posterior roots, and that in this tract the sacral nerves lie next the median plane, the lumbar to their lateral side, and the thoracic still more laterally. (Poirier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2098_END_INCLUDE_IMAGE_
Gray674.png Descending fibers in the posterior funiculi, shown at different levels. A. In the conus medullaris. B. In the lumbar region. C. In the lower thoracic region. D. In the upper thoracic region. (After Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2099_END_INCLUDE_IMAGE_
Gray675.png A spinal nerve with its anterior and posterior roots. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2100_END_INCLUDE_IMAGE_
Gray676.png Posterior roots entering medulla spinalis and dividing into ascending and descending branches. (Van Gehuchten.) a. Stem fiber. b, b. Ascending and descending limbs of bifurcation. c. Collateral arising from stem fiber. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2101_END_INCLUDE_IMAGE_
Gray677.png Scheme showing the connections of the several parts of the brain. (After Schwalbe.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2102_END_INCLUDE_IMAGE_
Gray678.png Schematic representation of the chief ganglionic categories (I to V). (Spitzka.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2103_END_INCLUDE_IMAGE_
Gray679.png Medulla oblongata and pons. Anterior surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2104_END_INCLUDE_IMAGE_
Gray680.png Decussation of pyramids. Scheme showing passage of various fasciculi from medulla spinalis to medulla oblongata. a. Pons. b. Medulla oblongata. c. Decussation of the pyramids. d. Section of cervical part of medulla spinalis. 1. Anterior cerebrospinal fasciculus (in red). 2. Lateral cerebrospinal fasciculus (in red). 3. Sensory tract (fasciculi gracilis et cuneatus) (in blue). 3’. Gracile and cuneate nuclei. 4. Antero-lateral proper fasciculus (in dotted line). 5. Pyramid. 6. Lemniscus. 7. Medial longitudinal fasciculus. 8. Ventral spinocerebellar fasciculus (in blue). 9. Dorsal spinocerebellar fasciculus (in yellow). (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2105_END_INCLUDE_IMAGE_
Gray681.png Hind- and mid-brains; postero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2106_END_INCLUDE_IMAGE_
Gray682.png Superficial dissection of brain-stem. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2107_END_INCLUDE_IMAGE_
Gray683.png Dissection of brain-stem. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2108_END_INCLUDE_IMAGE_
Gray684.png Deep dissection of brain-stem. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2109_END_INCLUDE_IMAGE_
Gray685.png Deep dissection of brain-stem. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2110_END_INCLUDE_IMAGE_
Gray686.png Upper part of medulla spinalis and hind- and mid-brains; posterior aspect, exposed in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2111_END_INCLUDE_IMAGE_
Gray687.png Section of the medulla oblongata through the lower part of the decussation of the pyramids. (Testut.) 1. Anterior median fissure. 2. Posterior median sulcus. 3. Anterior column (in red), with 3’, anterior root. 4. Posterior column (in blue), with 4’, posterior roots. 5. Lateral cerebrospinal fasciculus. 6. Posterior funiculus. The red arrow, a, a’, indicates the course the lateral cerebrospinal fasciculus takes at the level of the decussation of the pyramids; the blue arrow, b, b’, indicates the course which the sensory fibers take. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2112_END_INCLUDE_IMAGE_
Gray688.png Section of the medulla oblongata at the level of the decussation of the pyramids. (Testut.) 1. Anterior median fissure. 2. Posterior median sulcus. 3. Motor roots. 4. Sensory roots. 5. Base of the anterior column, from which the head (5’) has been detached by the lateral cerebrospinal fasciculus. 6. Decussation of the lateral cerebrospinal fasciculus. 7. Posterior columns (in blue). 8. Gracile nucleus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2113_END_INCLUDE_IMAGE_
Gray689.png Superficial dissection of brain-stem. Ventral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2114_END_INCLUDE_IMAGE_
Gray690.png Deep dissection of brain-stem. Ventral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2115_END_INCLUDE_IMAGE_
Gray691.png Dissection of brain-stem. Dorsal view. The nuclear masses of the medulla are taken from model by Weed, Carnegie Publication, No. 19. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2116_END_INCLUDE_IMAGE_
Gray692.png Superior terminations of the posterior fasciculi of the medulla spinalis. 1. Posterior median sulcus. 2. Fasciculus gracilis. 3. Fasciculus cuneatus. 4. Gracile nucleus. 5. Cuneate nucleus. 6, 6’, 6’’. Sensory fibers forming the lemniscus. 7. Sensory decussation. 8. Cerebellar fibers uncrossed (in black). 9. Cerebellar fibers crossed (in black). (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2117_END_INCLUDE_IMAGE_
Gray693.png Transverse section passing through the sensory decussation. (Schematic.) 1. Anterior median fissure. 2. Posterior median sulcus. 3, 3. Head and base of anterior column (in red). 4. Hypoglossal nerve. 5. Bases of posterior columns. 6. Gracile nucleus. 7. Cuneate nucleus. 8, 8. Lemniscus. 9. Sensory decussation. 10. Cerebrospinal fasciculus. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2118_END_INCLUDE_IMAGE_
Gray694.png Section of the medulla oblongata at about the middle of the olive. (Schwalbe.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2119_END_INCLUDE_IMAGE_
Gray695.png Transverse section of medulla oblongata below the middle of the olive. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2120_END_INCLUDE_IMAGE_
Gray696.png The cranial nerve nuclei schematically represented; dorsal view. Motor nuclei in red; sensory in blue. (The olfactory and optic centers are not represented.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2121_END_INCLUDE_IMAGE_
Gray697.png Nuclei of origin of cranial motor nerves schematically represented; lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2122_END_INCLUDE_IMAGE_
Gray698.png Primary terminal nuclei of the afferent (sensory) cranial nerves schematically represented; lateral view. The olfactory and optic centers are not represented. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2123_END_INCLUDE_IMAGE_
Gray699.png Diagram showing the course of the arcuate fibers. (Testut.) 1. Medulla oblongata anterior surface. 2. Anterior median fissure. 3. Fourth ventricle. 4. Inferior olivary nucleus, with the accessory olivary nuclei. 5. Gracile nucleus. 6. Cuneate nucleus. 7. Trigeminal. 8. Inferior peduncles, seen from in front. 9. Posterior external arcuate fibers. 10. Anterior external arcuate fibers. 11. Internal arcuate fibers. 12. Peduncle of inferior olivary nucleus. 13. Nucleus arcuatus. 14. Vagus. 15. Hypoglossal. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2124_END_INCLUDE_IMAGE_
Gray700.png The formatio reticularis of the medulla oblongata, shown by a transverse section passing through the middle of the olive. (Testut.) 1. Anterior median fissure. 2. Fourth ventricle. 3. Formatio reticularis, with 3’, its internal part (reticularis alba), and 3’’, its external part (reticularis grisea). 4. Raphé. 5. Pyramid. 6. Lemniscus. 7. Inferior olivary nucleus with the two accessory olivary nuclei. 8. Hypoglossal nerve, with 8’, its nucleus of origin. 9. Vagus nerve, with 9’, its nucleus of termination. 10. Lateral dorsal acoustic nucleus. 11. Nucleus ambiguus (nucleus of origin of motor fibers of glossopharyngeal, vagus, and cerebral portion of spinal accessory). 12. Gracile nucleus. 13. Cuneate nucleus. 14. Head of posterior column, with 14’, the lower sensory root of trigeminal nerve. 15. Fasciculus solitarius. 16. Anterior external arcuate fibers, with 16’, the nucleus arcuatus. 17. Nucleus lateralis 18. Nucleus of fasciculus teres. 19. Ligula. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2125_END_INCLUDE_IMAGE_
Gray701.png Coronal section of the pons, at its upper part. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2126_END_INCLUDE_IMAGE_
Gray702.png Upper surface of the cerebellum. (Schäfer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2127_END_INCLUDE_IMAGE_
Gray703.png Under surface of the cerebellum. (Schäfer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2128_END_INCLUDE_IMAGE_
Gray704.png Sagittal section of the cerebellum, near the junction of the vermis with the hemisphere. (Schäfer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2129_END_INCLUDE_IMAGE_
Gray705.png Dissection showing the projection fibers of the cerebellum. (After E. B. Jamieson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2130_END_INCLUDE_IMAGE_
Gray706.png Transverse section of a cerebellar folium. (Diagrammatic, after Cajal and Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2131_END_INCLUDE_IMAGE_
Gray707.png Sagittal section through right cerebellar hemisphere. The right olive has also been cut sagitally. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2132_END_INCLUDE_IMAGE_
Gray708.png Scheme of roof of fourth ventricle. The arrow is in the foramen of Majendie. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2133_END_INCLUDE_IMAGE_
Gray709.png Rhomboid fossa. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2134_END_INCLUDE_IMAGE_
Gray710.png Coronal section through mid-brain. (Schematic.) (Testut.) 1. Corpora quadrigemina. 2. Cerebral aqueduct. 3. Central gray stratum. 4. Interpeduncular space. 5. Sulcus lateralis. 6. Substantia nigra. 7. Red nucleus of tegmentum. 8. Oculomotor nerve, with 8’, its nucleus of origin. a. Lemniscus (in blue) with a’ the medial lemniscus and a" the lateral lemniscus. b. Medial longitudinal fasciculus. c. Raphé. d. Temporopontine fibers. e. Portion of medial lemniscus, which runs to the lentiform nucleus and insula. f. Cerebrospinal fibers. g. Frontopontine fibers. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2135_END_INCLUDE_IMAGE_
Gray711.png Transverse section of mid-brain at level of inferior colliculi. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2136_END_INCLUDE_IMAGE_
Gray712.png Transverse section of mid-brain at level of superior colliculi. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2137_END_INCLUDE_IMAGE_
Gray713.png Scheme showing the course of the fibers of the lemniscus; medial lemniscus in blue, lateral in red. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2138_END_INCLUDE_IMAGE_
Gray714.png Transverse section passing through the sensory decussation. Schematic. (Testut.) 1. Anterior median fissure. 2. Posterior median sulcus. 3, 3’. Head and base of anterior column (in red). 4. Hypoglossal nerve. 5. Bases of posterior column. 6. Gracile nucleus. 7. Cuneate nucleus. 8, 8. Lemniscus. 9. Sensory decussation. 10. Cerebrospinal fasciculus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2139_END_INCLUDE_IMAGE_
Gray715.png Mesal aspect of a brain sectioned in the median sagittal plane. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2140_END_INCLUDE_IMAGE_
Gray716.png Dissection showing the ventricles of the brain. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2141_END_INCLUDE_IMAGE_
Gray717.png Coronal section of brain immediately in front of pons. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2142_END_INCLUDE_IMAGE_
Gray718.png Coronal section of brain through intermediate mass of third ventricle. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2143_END_INCLUDE_IMAGE_
Gray719.png Hind- and mid-brains; postero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2144_END_INCLUDE_IMAGE_
Gray720.png Median sagittal section of brain. The relations of the pia mater are indicated by the red color. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2145_END_INCLUDE_IMAGE_
Gray721.png The hypophysis cerebri, in position. Shown in sagittal section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2146_END_INCLUDE_IMAGE_
Gray722.png Scheme showing central connections of the optic nerves and optic tracts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2147_END_INCLUDE_IMAGE_
Gray723.png Coronal section of lateral and third ventricles. (Diagrammatic.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2148_END_INCLUDE_IMAGE_
Gray724.png Base of brain. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2149_END_INCLUDE_IMAGE_
Gray725.png Lateral surface of left cerebral hemisphere, viewed from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2150_END_INCLUDE_IMAGE_
Gray726.png Lateral surface of left cerebral hemisphere, viewed from the side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2151_END_INCLUDE_IMAGE_
Gray727.png Medial surface of left cerebral hemisphere. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2152_END_INCLUDE_IMAGE_
Gray728.png Principal fissures and lobes of the cerebrum viewed laterally. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2153_END_INCLUDE_IMAGE_
Gray729.png Orbital surface of left frontal lobe. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2154_END_INCLUDE_IMAGE_
Gray730.png Section of brain showing upper surface of temporal lobe. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2155_END_INCLUDE_IMAGE_
Gray731.png The insula of the left side, exposed by removing the opercula. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2156_END_INCLUDE_IMAGE_
Gray732.png Scheme of rhinencephalon. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2157_END_INCLUDE_IMAGE_
Gray733.png Corpus callosum from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2158_END_INCLUDE_IMAGE_
Gray734.png Scheme showing relations of the ventricles to the surface of the brain. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2159_END_INCLUDE_IMAGE_
Gray735.png Drawing of a cast of the ventricular cavities, viewed from above. (Retzius.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2160_END_INCLUDE_IMAGE_
Gray736.png Drawing of a cast of the ventricular cavities, viewed from the side. (Retzius.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2161_END_INCLUDE_IMAGE_
Gray737.png Central part and anterior and posterior cornua of lateral ventricles exposed from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2162_END_INCLUDE_IMAGE_
Gray738.png Coronal section through posterior cornua of lateral ventricle. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2163_END_INCLUDE_IMAGE_
Gray739.png Posterior and inferior cornua of left lateral ventricle exposed from the side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2164_END_INCLUDE_IMAGE_
Gray740.png Inferior and posterior cornua, viewed from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2165_END_INCLUDE_IMAGE_
Gray741.png Two views of a model of the striatum: A, lateral aspect; B, mesal aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2166_END_INCLUDE_IMAGE_
Gray742.png Horizontal section of right cerebral hemisphere. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2167_END_INCLUDE_IMAGE_
Gray743.png Coronal section through anterior cornua of lateral ventricles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2168_END_INCLUDE_IMAGE_
Gray744.png Coronal section of brain through anterior commissure. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2169_END_INCLUDE_IMAGE_
Gray745.png Dissection showing the course of the cerebrospinal fibers. (E. B. Jamieson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2170_END_INCLUDE_IMAGE_
Gray746.png Diagram of the tracts in the internal capsule. Motor tract red. The sensory tract (blue) is not direct, but formed of neurons receiving impulses from below in the thalamus and transmitting them to the cortex. The optic radiation (occipitothalamic) is shown in violet. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2171_END_INCLUDE_IMAGE_
Gray747.png Diagram of the fornix. (Spitzka.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2172_END_INCLUDE_IMAGE_
Gray748.png The fornix and corpus callosum from below. (From a specimen in the Department of Human Anatomy of the University of Oxford.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2173_END_INCLUDE_IMAGE_
Gray749.png Coronal section of inferior horn of lateral ventricle. (Diagrammatic.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2174_END_INCLUDE_IMAGE_
Gray750.png Tela chorioidea of the third ventricle, and the choroid plexus of the left lateral ventricle, exposed from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2175_END_INCLUDE_IMAGE_
Gray751.png Diagram showing principal systems of association fibers in the cerebrum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2176_END_INCLUDE_IMAGE_
Gray752.png Dissection of cortex and brain-stem showing association fibers and island of Reil after removal of its superficial gray substance. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2177_END_INCLUDE_IMAGE_
Gray753.png Deep dissection of cortex and brain-stem. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2178_END_INCLUDE_IMAGE_
Gray754.png Cerebral cortex. (Poirier.) To the left, the groups of cells; to the right, the systems of fibers. Quite to the left of the figure a sensory nerve fiber is shown. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2179_END_INCLUDE_IMAGE_
Gray755.png Coronal section of olfactory bulb. (Schwalbe.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2180_END_INCLUDE_IMAGE_
Gray756.png Areas of localization on lateral surface of hemisphere. Motor area in red. Area of general sensations in blue. Auditory area in green. Visula area in yellow. The psychic portions are in lighter tints. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2181_END_INCLUDE_IMAGE_
Gray757.png Areas of localization on medial surface of hemisphere. Motor area in red. Area of general sensations in blue. Visual area in yellow. Olfactory area in purple. The psychic portions are in lighter tints. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2182_END_INCLUDE_IMAGE_
Gray758.png Diagram of the spinal cord reflex apparatus. Some of the connections of a single afferent neuron from the skin (d.r.2) are indicated: d.r.2, dorsal root from second spinal ganglion; m, muscles; sp.g.1 to sp.g.4, spinal ganglia; v.r.1' to v.r.4, ventral roots. (After Herrick.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2183_END_INCLUDE_IMAGE_
Gray759.png The sensory tract. (Modified from Poirier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2184_END_INCLUDE_IMAGE_
Gray760.png Terminal nuclei of the cochlear nerve, with their upper connections. (Schematic.) The vestibular nerve with its terminal nuclei and their efferent fibers have been suppressed. On the other hand, in order not to obscure the trapezoid body, the efferent fibers of the terminal nuclei on the right side have been resected in a considerable portion of their extent. The trapezoid body, therefore, shows only one-half of its fibers, viz., those which come from the left. 1. Vestibular nerve, divided at its entrance into the medulla oblongata. 2. Cochlear nerve. 3. Accessory nucleus of acoustic nerve. 4. Tuberculum acusticum. 5. Efferent fibers of accessory nucleus. 6. Efferent fibers of tuberculum acusticum, forming the striae medullares, with 6’, their direct bundle going to the superior olivary nucleus of the same side; 6’’, their decussating bundles going to the superior olivary nucleus of the opposite side. 7. Superior olivary nucleus. 8. Trapezoid body. 9. Trapezoid nucleus. 10. Central acoustic tract (lateral lemniscus). 11. Raphé. 12. Cerebrospinal fasciculus. 13. Fourth ventricle. 14. Inferior peduncle. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2185_END_INCLUDE_IMAGE_
Gray761.png Terminal nuclei of the vestibular nerve, with their upper connections. (Schematic.) 1. Cochlear nerve, with its two nuclei. 2. Accessory nucleus. 3. Tuberculum acusticum. 4. Vestibular nerve. 5. Internal nucleus. 6. Nucleus of Deiters. 7. Nucleus of Bechterew. 8. Inferior or descending root of acoustic. 9. Ascending cerebellar fibers. 10. Fibers going to raphé. 11. Fibers taking an oblique course. 12. Lemniscus. 13. Inferior sensory root of trigeminal. 14. Cerebrospinal fasciculus. 15. Raphé. 16. Fourth ventricle. 17. Inferior peduncle. Origin of striæ medullares. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2186_END_INCLUDE_IMAGE_
Gray762.png Figure showing the different groups of cells, which constitute, according to Perlia, the nucleus of origin of the oculomotor nerve. 1. Posterior dorsal nucleus. 1’. Posterior ventral nucleus. 2. Anterior dorsal nucleus. 2’. Anterior ventral nucleus. 3. Central nucleus. 4. Nucleus of Edinger and Westphal. 5. Antero-internal nucleus. 6. Antero-external nucleus. 8. Crossed fibers. 9. Trochlear nerve, with 9’, its nucleus of origin, and 9", its decussation. 10. Third ventricle. M, M. Median line. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2187_END_INCLUDE_IMAGE_
Gray763.png Scheme showing central connections of the optic nerves and optic tracts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2188_END_INCLUDE_IMAGE_
Gray764.png The motor tract. (Modified from Poirier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2189_END_INCLUDE_IMAGE_
Gray765.png Dura mater and its processes exposed by removing part of the right half of the skull and the brain. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2190_END_INCLUDE_IMAGE_
Gray766.png Tentorium cerebelli seen from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2191_END_INCLUDE_IMAGE_
Gray767.png The medulla spinalis and its membranes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2192_END_INCLUDE_IMAGE_
Gray768.png Diagram showing the positions of the three principal subarachnoid cisternæ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2193_END_INCLUDE_IMAGE_
Gray769.png Diagrammatic representation of a section across the top of the skull, showing the membranes of the brain, etc. (Modified from Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2194_END_INCLUDE_IMAGE_
Gray770.png Diagrammatic transverse section of the medulla spinalis and its membranes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2195_END_INCLUDE_IMAGE_
Gray771.png Nerves of septum of nose. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2196_END_INCLUDE_IMAGE_
Gray772.png Plan of olfactory neurons. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2197_END_INCLUDE_IMAGE_
Gray773.png The left optic nerve and the optic tracts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2198_END_INCLUDE_IMAGE_
Gray774.png Scheme showing central connections of the optic nerves and optic tracts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2199_END_INCLUDE_IMAGE_
Gray775.png Plan of oculomotor nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2200_END_INCLUDE_IMAGE_
Gray776.png Nerves of the orbit. Seen from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2201_END_INCLUDE_IMAGE_
Gray777.png Nerves of the orbit, and the ciliary ganglion. Side view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2202_END_INCLUDE_IMAGE_
Gray778.png Distribution of the maxillary and mandibular nerves, and the submaxillary ganglion. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2203_END_INCLUDE_IMAGE_
Gray779.png Alveolar branches of superior maxillary nerve and sphenopalatine ganglion. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2204_END_INCLUDE_IMAGE_
Gray780.png The sphenopalatine ganglion and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2205_END_INCLUDE_IMAGE_
Gray781.png Mandibular division of the trifacial nerve. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2206_END_INCLUDE_IMAGE_
Gray782.png Mandibular division of trifacial nerve, seen from the middle line. The small figure is an enlarged view of the otic ganglion. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2207_END_INCLUDE_IMAGE_
Gray783.png The otic ganglion and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2208_END_INCLUDE_IMAGE_
Gray784.png Sensory areas of the head, showing the general distribution of the three divisions of the fifth nerve. (Modified from Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2209_END_INCLUDE_IMAGE_
Gray785.png Figure showing the mode of innervation of the Recti medialis and lateralis of the eye (after Duval and Laborde). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2210_END_INCLUDE_IMAGE_
Gray786.png Oblique section through the right cavernous sinus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2211_END_INCLUDE_IMAGE_
Gray787.png Dissection showing origins of right ocular muscles, and nerves entering by the superior orbital fissure. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2212_END_INCLUDE_IMAGE_
Gray788.png Plan of the facial and intermediate nerves and their communication with other nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2213_END_INCLUDE_IMAGE_
Gray789.png The course and connections of the facial nerve in the temporal bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2214_END_INCLUDE_IMAGE_
Gray790.png The nerves of the scalp, face, and side of neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2215_END_INCLUDE_IMAGE_
Gray791.png Plan of upper portions of glossopharyngeal, vagus, and accessory nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2216_END_INCLUDE_IMAGE_
Gray792.png Upper part of medulla spinalis and hind- and mid-brains; posterior aspect, exposed in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2217_END_INCLUDE_IMAGE_
Gray793.png Course and distribution of the glossopharyngeal, vagus, and accessory nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2218_END_INCLUDE_IMAGE_
Gray794.png Hypoglossal nerve, cervical plexus, and their branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2219_END_INCLUDE_IMAGE_
Gray795.png Plan of hypoglossal nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2220_END_INCLUDE_IMAGE_
Gray796.png A portion of the spinal cord, showing its right lateral surface. The dura is opened and arranged to show the nerve roots. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2221_END_INCLUDE_IMAGE_
Gray797.png Distribution of cutaneous nerves. Ventral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2222_END_INCLUDE_IMAGE_
Gray798.png Distribution of cutaneous nerves. Dorsal aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2223_END_INCLUDE_IMAGE_
Gray799.png Scheme showing structure of a typical spinal nerve. 1. Somatic efferent. 2. Somatic afferent. 3,4,5. Sympathetic efferent. 6,7. Sympathetic afferent. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2224_END_INCLUDE_IMAGE_
Gray800.png Posterior primary divisions of the upper three cervical nerves. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2225_END_INCLUDE_IMAGE_
Gray801.png Diagram of the distribution of the cutaneous branches of the posterior divisions of the spinal nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2226_END_INCLUDE_IMAGE_
Gray802.png Areas of distribution of the cutaneous branches of the posterior divisions of the spinal nerves. The areas of the medial branches are in black, those of the lateral in red. (H. M. Johnston.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2227_END_INCLUDE_IMAGE_
Gray803.png The posterior divisions of the sacral nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2228_END_INCLUDE_IMAGE_
Gray804.png Plan of the cervical plexus. (Gerrish.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2229_END_INCLUDE_IMAGE_
Gray805.png The nerves of the scalp, face, and side of neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2230_END_INCLUDE_IMAGE_
Gray806.png The phrenic nerve and its relations with the vagus nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2231_END_INCLUDE_IMAGE_
Gray807.png Plan of brachial plexus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2232_END_INCLUDE_IMAGE_
Gray808.png The right brachial plexus with its short branches, viewed from in front. The Sternomastoid and Trapezius muscles have been completely, the Omohyoid and Subclavius have been partially, removed; a piece has been sawed out of the clavicle; the Pectoralis muscles have been incised and reflected. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2233_END_INCLUDE_IMAGE_
Gray809.png The right brachial plexus (infraclavicular portion) in the axillary fossa; viewed from below and in front. The Pectoralis major and minor muscles have been in large part removed; their attachments have been reflected. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2234_END_INCLUDE_IMAGE_
Gray810.png Suprascapular and axillary nerves of right side, seen from behind. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2235_END_INCLUDE_IMAGE_
Gray811.png Cutaneous nerves of right upper extremity. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2236_END_INCLUDE_IMAGE_
Gray812.png Diagram of segmental distribution of the cutaneous nerves of the right upper extremity. Anterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2237_END_INCLUDE_IMAGE_
Gray813.png Cutaneous nerves of right upper extremity. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2238_END_INCLUDE_IMAGE_
Gray814.png Diagram of segmental distribution of the cutaneous nerves of the right upper extremity. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2239_END_INCLUDE_IMAGE_
Gray815.png Superficial palmar nerves. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2240_END_INCLUDE_IMAGE_
Gray816.png Nerves of the left upper extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2241_END_INCLUDE_IMAGE_
Gray817.png Deep palmar nerves. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2242_END_INCLUDE_IMAGE_
Gray818.png The suprascapular, axillary, and radial nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2243_END_INCLUDE_IMAGE_
Gray819.png Diagram of the course and branches of a typica intercostal nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2244_END_INCLUDE_IMAGE_
Gray820.png Cutaneous distribution of thoracic nerves. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2245_END_INCLUDE_IMAGE_
Gray821.png Intercostal nerves, the superficial muscles having been removed. (Testut). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2246_END_INCLUDE_IMAGE_
Gray822.png Plan of lumbar plexus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2247_END_INCLUDE_IMAGE_
Gray823.png The lumbar plexus and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2248_END_INCLUDE_IMAGE_
Gray824.png Deep and superficial dissection of the lumbar plexus. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2249_END_INCLUDE_IMAGE_
Gray825.png Cutaneous nerves of right lower extremity. Front view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2250_END_INCLUDE_IMAGE_
Gray826.png Diagram of segmental distribution of the cutaneous nerves of the right lower extremity. Front view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2251_END_INCLUDE_IMAGE_
Gray827.png Nerves of the right lower extremity. Front view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2252_END_INCLUDE_IMAGE_
Gray828.png Plan of sacral and pudendal plexuses. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2253_END_INCLUDE_IMAGE_
Gray829.png Dissection of side wall of pelvis showing sacral and pudendal plexuses. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2254_END_INCLUDE_IMAGE_
Gray830.png Cutaneous nerves of right lower extremity. Posterior view. 137 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2255_END_INCLUDE_IMAGE_
Gray831.png Diagram of the segmental distribution of the cutaneous nerves of the right lower extremity. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2256_END_INCLUDE_IMAGE_
Gray832.png Nerves of the right lower extremity Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2257_END_INCLUDE_IMAGE_
Gray833.png The plantar nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2258_END_INCLUDE_IMAGE_
Gray834.png Diagram of the segmental distribution of the cutaneous nerves of the sole of the foot. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2259_END_INCLUDE_IMAGE_
Gray835.png Deep nerves of the front of the leg. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2260_END_INCLUDE_IMAGE_
Gray836.png Nerves of the dorsum of the foot. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2261_END_INCLUDE_IMAGE_
Gray837.png Sacral plexus of the right side. (Testut). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2262_END_INCLUDE_IMAGE_
Gray838.png The right sympathetic chain and its connections with the thoracic, abdominal, and pelvic plexuses. (After Schwalbe.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2263_END_INCLUDE_IMAGE_
Gray839.png Diagram of efferent sympathetic nervous system. Blue, cranial and sacral outflow. Red, thoracohumeral outflow. ——, Postganglionic fibers to spinal and cranial nerves to supply vasomotors to head, trunk and limbs, motor fibers to smooth muscles of skin and fibers to sweat glands. (Modified after Meyer and Gottlieb.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2264_END_INCLUDE_IMAGE_
Gray840.png Sympathetic connections of the ciliary and superior cervical ganglia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2265_END_INCLUDE_IMAGE_
Gray841.png Sympathetic connections of the sphenopalatine and superior cervical ganglia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2266_END_INCLUDE_IMAGE_
Gray842.png Sympathetic connections of the submaxillary and superior cervical ganglia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2267_END_INCLUDE_IMAGE_
Gray843.png Sympathetic connections of the otic and superior cervical ganglia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2268_END_INCLUDE_IMAGE_
Gray844.png Diagram of the cervical sympathetic. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2269_END_INCLUDE_IMAGE_
Gray845.png Plan of right sympathetic cord and splanchnic nerves. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2270_END_INCLUDE_IMAGE_
Gray846.png Thoracic portion of the sympathetic trunk. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2271_END_INCLUDE_IMAGE_
Gray847.png Abdominal portion of the sympathetic trunk, with the celiac and hypogastric plexuses. (Henle.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2272_END_INCLUDE_IMAGE_
Gray848.png The celiac ganglia with the sympathetic plexuses of the abdominal viscera radiating from the ganglia. (Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2273_END_INCLUDE_IMAGE_
Gray849.png Lower half of right sympathetic cord. (Testut after Hirschfeld.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2274_END_INCLUDE_IMAGE_
Gray850.png Vertical section of papilla foliata of the rabbit, crossing the folia. (Ranvier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2275_END_INCLUDE_IMAGE_
Gray851.png Taste-bud, highly magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2276_END_INCLUDE_IMAGE_
Gray852.png Cartilages of the nose. Side view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2277_END_INCLUDE_IMAGE_
Gray853.png Cartilages of the nose, seen from below. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2278_END_INCLUDE_IMAGE_
Gray854.png Bones and cartilages of septum of nose. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2279_END_INCLUDE_IMAGE_
Gray855.png Lateral wall of nasal cavity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2280_END_INCLUDE_IMAGE_
Gray856.png Lateral wall of nasal cavity; the three nasal conchæ have been removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2281_END_INCLUDE_IMAGE_
Gray857.png Section of the olfactory mucous membrane. (Cadiat.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2282_END_INCLUDE_IMAGE_
Gray858.png Nerves of septum of nose. Right side 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2283_END_INCLUDE_IMAGE_
Gray859.png Coronal section of nasal cavities. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2284_END_INCLUDE_IMAGE_
Gray860.png —Specimen from a child eight days old. By sagittal sections removing the lateral portion of frontal bone, lamina papyracea of ethmoid, and lateral portion of maxilla—the sinus maxillaris, cellulæ ethmoidales, anterior and posterior, infundibulum ethmoidale, and the primitive sinus frontalis are brought into view. (Davis.) 141 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2285_END_INCLUDE_IMAGE_
Gray861.png Specimen from a child one year, four months, and seven days old. Lateral view of frontal, ethmoidal, and maxillary sinus areas. (Davis.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2286_END_INCLUDE_IMAGE_
Gray862.png Specimen from a child eight years, eight months, and one day old. Lateral view of frontal, ethmoidal and maxillary sinus areas, the lateral portion of each having been removed by sagittal cuts. Note that the sinus frontalis developed directly from the infundibulum ethmoidale. Note also the incomplete septa in the sinus maxillaris. (Davis.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2287_END_INCLUDE_IMAGE_
Gray863.png Transverse section of head of chick embryo of forty-eight hours’ incubation. (Duval.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2288_END_INCLUDE_IMAGE_
Gray864.png Transverse section of head of chick embryo of fifty-two hours’ incubation. (Duval.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2289_END_INCLUDE_IMAGE_
Gray865.png Optic cup and choroidal fissure seen from below, from a human embryo of about four weeks. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2290_END_INCLUDE_IMAGE_
Gray866.png Horizontal section through the eye of an eighteen days’ embryo rabbit. X 30. (Kölliker.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2291_END_INCLUDE_IMAGE_
Gray867.png Sagittal section of eye of human embryo of six weeks. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2292_END_INCLUDE_IMAGE_
Gray868.png Section of developing eye of trout. (Szily.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2293_END_INCLUDE_IMAGE_
Gray869.png Horizontal section of the eyeball. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2294_END_INCLUDE_IMAGE_
Gray870.png Enlarged general view of the iridial angle. (Arthur Thomson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2295_END_INCLUDE_IMAGE_
Gray871.png Vertical section of human cornea from near the margin. (Waldeyer.) Magnified. 1. Epithelium. 2. Anterior elastic lamina. 3. substantia propria. 4. Posterior elastic lamina. 5. Endothelium of the anterior chamber. a. Oblique fibers in the anterior layer of the substantia propria. b. Lamellæ the fibers of which are cut across, producing a dotted appearance. c. Corneal corpuscles appearing fusiform in section. d. Lamellæ the fibers of which are cut longitudinally. e. Transition to the sclera, with more distinct fibrillation, and surmounted by a thicker epithelium. f. Small bloodvessels cut across near the margin of the cornea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2296_END_INCLUDE_IMAGE_
Gray872.png The choroid and iris. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2297_END_INCLUDE_IMAGE_
Gray873.png The arteries of the choroid and iris. The greater part of the sclera has been removed. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2298_END_INCLUDE_IMAGE_
Gray874.png The veins of the choroid. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2299_END_INCLUDE_IMAGE_
Gray875.png Interior of anterior half of bulb of eye. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2300_END_INCLUDE_IMAGE_
Gray876.png Vessels of the choroid, ciliary processes, adn iris of a child. (Arnold.) Magnified 10 times. a. Capillary net-work of the posterior part of the choroid, ending at b, the ora serrata. c. Arteries of the corona ciliaris, supplying the ciliary processes, d, and passing into the iris e. f. The capillary net-work close to the pupillary margin of the iris. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2301_END_INCLUDE_IMAGE_
Gray877.png Diagram of the blood vessels of the eye, as seen in a horizontal section. (Leber, after Stöhr.). Course of vasa centralia retinæ: a. Arteria. a. 147 Vena centralis retinæ. B. Anastomosis with vessels of outer coats. C. Anastomosis with branches of short posterior ciliary arteries. D. Anastomosis with chorioideal vessels. Course of vasa ciliar. postic. brev.: I. Arteriæ, and I1. Venæ ciliar. postic. brev. II. Episcleral artery. II1. Episcleral vein. III. Capillaries of lamina choriocapillaris. Course of vasa ciliar. postic. long.: 1. a. ciliar. post. longa. 2. Circulus iridis major cut across. 3. Branches to ciliary body. 4. Branches to iris. Course of vasa ciliar. ant.: a. Arteria. a1. Vena ciliar. ant. b. Junction with the circulus iridis major. c. Junction with lamina choriocapill. d. Arterial, and d1. Venous episcleral branches. e. Arterial, and e1. Venous branches to conjunctiva scleræ. f. Arterial, and f1. Venous branches to corneal border. V. Vena vorticosa. S. Transverse section of sinus venosus scleræ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2302_END_INCLUDE_IMAGE_
Gray878.png Iris, front view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2303_END_INCLUDE_IMAGE_
Gray879.png Interior of posterior half of bulb of left eye. The veins are darker in appearance than the arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2304_END_INCLUDE_IMAGE_
Gray880.png The terminal portion of the optic nerve and its entrance into the eyeball, in horizontal section. (Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2305_END_INCLUDE_IMAGE_
Gray881.png Section of retina. (Magnified.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2306_END_INCLUDE_IMAGE_
Gray882.png Plan of retinal neurons. (After Cajal.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2307_END_INCLUDE_IMAGE_
Gray883.png The upper half of a sagittal section through the front of the eyeball. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2308_END_INCLUDE_IMAGE_
Gray884.png The crystalline lens, hardened and divided. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2309_END_INCLUDE_IMAGE_
Gray885.png Diagram to show the direction and arrangement of the radiating lines on the front and back of the fetal lens. A. From the front. B. From the back. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2310_END_INCLUDE_IMAGE_
Gray886.png Profile views of the lens at different periods of life. 1. In the fetus. 2. In adult life. 3. In old age. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2311_END_INCLUDE_IMAGE_
Gray887.png Section through the margin of the lens, showing the transition of the epithelium into the lens fibers. (Babuchin.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2312_END_INCLUDE_IMAGE_
Gray888.png Sagittal section of right orbital cavity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2313_END_INCLUDE_IMAGE_
Gray889.png Muscles of the right orbit. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2314_END_INCLUDE_IMAGE_
Gray890.png Dissection showing origins of right ocular muscles, and nerves entering by the superior orbital fissure. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2315_END_INCLUDE_IMAGE_
Gray891.png The right eye in sagittal section, showing the fascia bulbi (semidiagrammatic). (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2316_END_INCLUDE_IMAGE_
Gray892.png Front of left eye with eyelids separated to show medial canthus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2317_END_INCLUDE_IMAGE_
Gray893.png Sagittal section through the upper eyelid. (After Waldeyer.) a. Skin. b. Orbicularis oculi. b’. Marginal fasciculus of Orbicularis (ciliary bundle). c. Levator palpebræ. d. Conjunctiva. e. Tarsus. f. Tarsal gland. g. Sebaceous gland. h. Eyelashes. i. Small hairs of skin. Sweat glands. k. Posterior tarsal glands. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2318_END_INCLUDE_IMAGE_
Gray894.png The tarsi and their ligaments. Right eye; front view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2319_END_INCLUDE_IMAGE_
Gray895.png The tarsal glands, etc., seen from the inner surface of the eyelids. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2320_END_INCLUDE_IMAGE_
Gray896.png The lacrimal apparatus. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2321_END_INCLUDE_IMAGE_
Gray897.png Alveoli of lacrimal gland. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2322_END_INCLUDE_IMAGE_
Gray898.png Section through the head of a human embryo, about twelve days old, in the region of the hind-brain. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2323_END_INCLUDE_IMAGE_
Gray899.png Section through hind-brain and auditory vesicles of an embryo more advanced than that of Fig. 898. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2324_END_INCLUDE_IMAGE_
Gray900.png Lateral views of membranous labyrinth and acoustic complex. X 25 dia. (Streeter.) absorpt. focu, area of wall where absorption is complete; amp., ampulla membranacea; crus, crus commune; d. sc. lat., ductus semicircularis lateralis; d. sc. post., ductus semicircularis posterior; d. sc. sup., ductus semicircular superior; coch. or cochlea, ductus cochlearis; duct. endolymph, ductus endolymphaticus; d. reuniens, ductus reuniens Henseni; endol. or endolymphs appendix endolymphaticus; rec. utr., recessus utriculi; sacc., sacculus; sac. endol., saccus endolymphaticus; sinus utr. lat., sinus utriculi lateralis; utric., utriculus; vestib. p., vestibular pouch. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2325_END_INCLUDE_IMAGE_
Gray901.png Median views of membranous labyrinth and acoustic complex in human embryos. X 25 dia. (Streeter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2326_END_INCLUDE_IMAGE_
Gray902.png Transverse section through head of fetal sheep, in the region of the labyrinth. X 30. (After Boettcher.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2327_END_INCLUDE_IMAGE_
Gray903.png Transverse section of the cochlear duct of a fetal cat. (After Boettcher and Ayres.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2328_END_INCLUDE_IMAGE_
Gray904.png The auricula. Lateral surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2329_END_INCLUDE_IMAGE_
Gray905.png Cranial surface of cartilage of right auricula. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2330_END_INCLUDE_IMAGE_
Gray906.png The muscles of the auricula. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2331_END_INCLUDE_IMAGE_
Gray907.png External and middle ear, opened from the front. Right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2332_END_INCLUDE_IMAGE_
Gray908.png Horizontal section through left ear; upper half of section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2333_END_INCLUDE_IMAGE_
Gray909.png Right tympanic membrane as seen through a speculum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2334_END_INCLUDE_IMAGE_
Gray910.png The tympanic membrane viewed from within. (Testut.) The malleus has been resected immediately beyond its lateral process, in order to show the tympanomalleolar folds and the membrana flaccida. 1. Tympanic membrane. 2. Umbo. 3. Handle of the malleus. 4. Lateral process. 5. Anterior tympanomalleolar fold. 6. Posterior tympanomalleolar fold. 7. Pars flaccida. 8. Anterior pouch of Tröltsch. 9. Posterior pouch of Tröltsch. 10. Fibrocartilaginous ring. 11. Petrotympanic fissure. 12. Auditory tube. 13. Iter chordæ posterius. 14. Iter chordæ anterius. 15. Fossa incudis for short crus of the incus. 16. Prominentia styloidea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2335_END_INCLUDE_IMAGE_
Gray911.png View of the inner wall of the tympanum (enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2336_END_INCLUDE_IMAGE_
Gray912.png The right membrana tympani with the hammer and the chorda tympani, viewed from within, from behind, and from above. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2337_END_INCLUDE_IMAGE_
Gray913.png Coronal section of right temporal bone. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2338_END_INCLUDE_IMAGE_
Gray914.png The medial wall and part of the posterior and anterior walls of the right tympanic cavity, lateral view. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2339_END_INCLUDE_IMAGE_
Gray915.png Auditory tube, laid open by a cut in its long axis. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2340_END_INCLUDE_IMAGE_
Gray916.png Left malleus. A. From behind. B. From within. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2341_END_INCLUDE_IMAGE_
Gray917.png Left incus. A. From within. B. From the front. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2342_END_INCLUDE_IMAGE_
Gray918.png A. Left stapes. B. Base of stapes, medial surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2343_END_INCLUDE_IMAGE_
Gray919.png Chain of ossicles and their ligaments, seen from the front in a vertical, transverse section of the tympanum. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2344_END_INCLUDE_IMAGE_
Gray920.png Right osseous labyrinth. Lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2345_END_INCLUDE_IMAGE_
Gray921.png Interior of right osseous labyrinth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2346_END_INCLUDE_IMAGE_
Gray922.png Position of the right bony labyrinth of the ear in the skull, viewed from above. The temporal bone is considered transparent and the labyrinth drawn in from a corrosion preparation. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2347_END_INCLUDE_IMAGE_
Gray923.png The cochlea and vestibule, viewed from above. All the hard parts which form the roof of the internal ear have been removed with the saw. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2348_END_INCLUDE_IMAGE_
Gray924.png The membranous labyrinth. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2349_END_INCLUDE_IMAGE_
Gray925.png Right human membranous labyrinth, removed from its bony enclosure and viewed from the antero-lateral aspect. (G. Retzius.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2350_END_INCLUDE_IMAGE_
Gray926.png The same from the postero-medial aspect. 1. Lateral semicircular canal; 1’, its ampulla; 2. Posterior canal; 2’, its ampulla. 3. Superior canal; 3’, its ampulla. 4. Conjoined limb of superior and posterior canals (sinus utriculi superior). 5. Utricle. 5’. Recessus utriculi. 5”. Sinus utriculi posterior. 6. Ductus endolymphaticus. 7. Canalis utriculosaccularis. 8. Nerve to ampulla of superior canal. 9. Nerve to ampulla of lateral canal. 10. Nerve to recessus utriculi (in Fig. 925, the three branches appear conjoined). 10’. Ending of nerve in recessus utriculi. 11. Facial nerve. 12. Lagena cochleæ. 13. Nerve of cochlea within spiral lamina. 14. Basilar membrane. 15. Nerve fibers to macula of saccule. 16. Nerve to ampulla of posterior canal. 17. Saccule. 18. Secondary membrane of tympanum. 19. Canalis reuniens. 20. Vestibular end of ductus cochlearis. 23. Section of the facial and acoustic nerves within internal acoustic meatus (the separation between them is not apparent in the section). (G. Retzius.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2351_END_INCLUDE_IMAGE_
Gray927.png Transverse section of a human semicircular canal and duct (after Rüdinger). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2352_END_INCLUDE_IMAGE_
Gray928.png Diagrammatic longitudinal section of the cochlea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2353_END_INCLUDE_IMAGE_
Gray929.png Floor of ductus cochlearis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2354_END_INCLUDE_IMAGE_
Gray930.png Limbus laminæ spiralis and membrana basilaris. (Schematic.) 1, 1’. Upper and lower lamellæ of the lamina spiralis ossea. 2. Limbus laminæ spiralis, with a, the teeth of the first row; b, b’, the auditory teeth of the other rows; c, c’, the interdental grooves and the cells which are lodged in them. 3. Sulcus spiralis internus, with 3’, its labium vestibulare, and 3”, its labium tympanicum. 4. Foramina nervosa, giving passage to the nerves from the ganglion spirale or ganglion of Corti. 5. Vas spirale. 6. Zona arcuata, and 6’, zona pectinata of the basilar membrane, with a, its hyaline layer, B, its connective-tissue layer. 7. Arch of spiral organ, with 7’, its inner rod, and 7”, its outer rod. 8. Feet of the internal rods, from which the cells are removed. 9. Feet of the external rods. 10. Vestibular membrane, at its origin. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2355_END_INCLUDE_IMAGE_
Gray931.png Section through the spiral organ of Corti. Magnified. (G. Retzius.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2356_END_INCLUDE_IMAGE_
Gray932.png The lamina reticularis and subjacent structures. (Schematic.) A. Internal rod of Corti, with a, its plate. B. External rod (in yellow). C. Tunnel of Corti. D. Membrana basilaris. E. Inner hair cells. 1, 1’. Internal and external borders of the membrana reticularis. 2, 2’, 2”. The three rows of circular holes (in blue). 3. First row of phalanges (in yellow). 4, 4’, 4”. Second, third, and fourth rows of phalanges (in red). 6, 6’, 6”. The three rows of outer hair cells (in blue). 7, 7’, 7”. Cells of Deiters. 8. Cells of Hensen and Claudius. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2357_END_INCLUDE_IMAGE_
Gray933.png Part of the cochlear division of the acoustic nerve, highly magnified. (Henle.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2358_END_INCLUDE_IMAGE_
Gray934.png End-bulb of Krause. (Klein.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2359_END_INCLUDE_IMAGE_
Gray935.png Pacinian corpuscle, with its system of capsules and central cavity. a. Arterial twig, ending in capillaries, which form loops in some of the intercapsular spaces, and one penetrates to the central capsule. b. The fibrous tissue of the stalk. n. Nerve tube advancing to the central capsule, there losing its white matter, and stretching along the axis to the opposite end, where it ends by a tuberculated enlargement. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2360_END_INCLUDE_IMAGE_
Gray936.png Papilla of the hand, treated with acetic acid. Magnified 350 times. A. Side view of a papilla of the hand. a. Cortical layer. b. Tactile corpuscle. c. Small nerve of the papilla, with neurolemma. d. Its two nervous fibers running with spiral coils around the tactile corpuscle. e. Apparent termination of one of these fibers. B. A tactile papilla seen from above so as to show its transverse section. a. Cortical layer. b. Nerve fiber. c. Outer layer of the tactile body, with nuclei. d. Clear interior substance. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2361_END_INCLUDE_IMAGE_
Gray937.png Nerve ending of Ruffini. (After A. Ruffini.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2362_END_INCLUDE_IMAGE_
Gray938.png Organ of Golgi (neurotendinous spindle) from the human tendo calcaneus. (After Ciaccio.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2363_END_INCLUDE_IMAGE_
Gray939.png Middle third of a terminal plaque in the muscle spindle of an adult cat. (After Ruffini.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2364_END_INCLUDE_IMAGE_
Gray940.png A diagrammatic sectional view of the skin (magnified). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2365_END_INCLUDE_IMAGE_
Gray941.png Section of epidermis. (Ranvier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2366_END_INCLUDE_IMAGE_
Gray942.png The distribution of the bloodvessels in the skin of the sole of the foot. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2367_END_INCLUDE_IMAGE_
Gray943.png Longitudinal section through nail and its nail groove (sulcus). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2368_END_INCLUDE_IMAGE_
Gray944.png Section of skin, showing the epidermis and dermis; a hair in its follicle; the Arrector pili muscle; sebaceous glands. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2369_END_INCLUDE_IMAGE_
Gray945.png Transverse section of hair follicle. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2370_END_INCLUDE_IMAGE_
Gray946.png Body of a sudoriferous-gland cut in various deirections. a. Longitudinal section of the proximal part of the coiled tube. b. Transverse section of the same. c. Longitudinal section of the distal part of the coiled tube. d. Transverse section of the same. (Klein and Noble Smith.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2371_END_INCLUDE_IMAGE_
Gray947.png The head and neck of a human embryo thirty-two days old, seen from the ventral surface. The floor of the mouth and pharynx have been removed. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2372_END_INCLUDE_IMAGE_
Gray948.png Lung buds from a human embryo of about four weeks, showing commencing lobulations. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2373_END_INCLUDE_IMAGE_
Gray949.png Lungs of a human embryo more advanced in development. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2374_END_INCLUDE_IMAGE_
Gray950.png The cartilages of the larynx. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2375_END_INCLUDE_IMAGE_
Gray951.png The ligaments of the larynx. Antero-lateral view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2376_END_INCLUDE_IMAGE_
Gray952.png Ligaments of the larynx. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2377_END_INCLUDE_IMAGE_
Gray953.png Sagittal section of the larynx and upper part of the trachea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2378_END_INCLUDE_IMAGE_
Gray954.png Coronal section of larynx and upper part of trachea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2379_END_INCLUDE_IMAGE_
Gray955.png The entrance to the larynx, viewed from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2380_END_INCLUDE_IMAGE_
Gray956.png Laryngoscopic view of interior of larynx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2381_END_INCLUDE_IMAGE_
Gray957.png Side view of the larynx, showing muscular attachments. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2382_END_INCLUDE_IMAGE_
Gray958.png Muscles of larynx. Posterior view. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2383_END_INCLUDE_IMAGE_
Gray959.png Muscles of larynx. Side view. Right lamina of thyroid cartilage removed. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2384_END_INCLUDE_IMAGE_
Gray960.png Muscles of the larynx, seen from above. (Enlarged.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2385_END_INCLUDE_IMAGE_
Gray961.png Front view of cartilages of larynx, trachea, and bronchi. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2386_END_INCLUDE_IMAGE_
Gray962.png Bronchi and bronchioles. The lungs have been widely separated and tissue cut away to expose the air-tubes. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2387_END_INCLUDE_IMAGE_
Gray963.png Transverse section of the trachea, just above its bifurcation, with a bird’s-eye view of the interior. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2388_END_INCLUDE_IMAGE_
Gray964.png Transverse section of trachea. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2389_END_INCLUDE_IMAGE_
Gray965.png Front view of thorax, showing the relations of the pleuræ and lungs to the chest wall. Pleura in blue; lungs in purple. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2390_END_INCLUDE_IMAGE_
Gray966.png Lateral view of thorax, showing the relations of the pleuræ and lungs to the chest wall. Pleura in blue; lungs in purple. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2391_END_INCLUDE_IMAGE_
Gray967.png Transverse section through the upper margin of the second thoracic vertebra. (Braune.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2392_END_INCLUDE_IMAGE_
Gray968.png A transverse section of the thorax, showing the contents of the middle and the posterior mediastinum. The pleural and pericardial cavities are exaggerated since normally there is no space between parietal and visceral pleura and between pericardium and heart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2393_END_INCLUDE_IMAGE_
Gray969.png The middle and posterior mediastina. Left side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2394_END_INCLUDE_IMAGE_
Gray970.png Front view of heart and lungs. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2395_END_INCLUDE_IMAGE_
Gray971.png Pulmonary vessels, seen in a dorsal view of the heart and lungs. The lungs have been pulled away from the median line, and a part of the right lung has been cut away to display the air-ducts and bloodvessels. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2396_END_INCLUDE_IMAGE_
Gray972.png Mediastinal surface of right lung. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2397_END_INCLUDE_IMAGE_
Gray973.png Mediastinal surface of left lung. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2398_END_INCLUDE_IMAGE_
Gray974.png Part of a secondary lobule from the depth of a human lung, showing parts of several primary lobules. 1, bronchiole; 2, respiratory bronchiole; 3, alveolar duct; 4, atria; 5, alveolar sac; 6, alveolus or air cell: m, smooth muscle; a, branch pulmonary artery; v, branch pulmonary vein; s, septum between secondary lobules. Camera drawing of one 50 ? section. X 20 diameters. (Miller.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2399_END_INCLUDE_IMAGE_
Gray975.png Schematic longitudinal section of a primary lobule of the lung (anatomical unit); r. b., respiratory bronchiole; al. d., alveolar duct; at., atria; a. s., alveolar sac; a, alveolus or air cell; p. a.: pulmonary artery: p. v., pulmonary vein; l., lymphatic; l. n., lymph node. (Miller.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2400_END_INCLUDE_IMAGE_
Gray976.png Section of lung of pig embryo, 13 cm. long, showing the glandular character of the developing alveoli (J. M. Flint.) X 70. a. Interstitial connective tissue. b. A bronchial tube. c. An Alveolus. l. lymphatic clefts. q. Pleura. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2401_END_INCLUDE_IMAGE_
Gray977.png Human embryo about fifteen days old. Brain and heart represented from right side. Digestive tube and yolk sac in median section. (After His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2402_END_INCLUDE_IMAGE_
Gray978.png Head end of human embryo of about thirty to thirty-one days. (From model by Peters.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2403_END_INCLUDE_IMAGE_
Gray979.png Floor of pharynx of human embryo about twenty-six days old. (From model by Peters.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2404_END_INCLUDE_IMAGE_
Gray980.png Floor of pharynx of human embryo of about the end of the fourth week. (From model by Peters.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2405_END_INCLUDE_IMAGE_
Gray981.png Floor of pharynx of human embryo about thirty days old. (From model by Peter.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2406_END_INCLUDE_IMAGE_
Gray982.png Sketches in profile of two stages in the development of the human digestive tube. (His.) A X 30. B X 20. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2407_END_INCLUDE_IMAGE_
Gray983.png Front view of two successive stages in the development of the digestive tube. (His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2408_END_INCLUDE_IMAGE_
Gray984.png The primitive mesentery of a six weeks’ human embryo, half schematic. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2409_END_INCLUDE_IMAGE_
Gray985.png Abdominal part of digestive tube and its attachment to the primitive or common mesentery. Human embryo of six weeks. (After Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2410_END_INCLUDE_IMAGE_
Gray986.png Reconstruction of a human embryo of 17 mm. (After Mall.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2411_END_INCLUDE_IMAGE_
Gray987.png Diagrams to illustrate two stages in the development of the digestive tube and its mesentery. The arrow indicates the entrance to the bursa omentalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2412_END_INCLUDE_IMAGE_
Gray988.png Final disposition of the intestines and their vascular relations. (Jonnesco.) A. Aorta. H. Hepatic artery. M, Col. Branches of superior mesenteric artery. m, m’. Branches of inferior mesenteric artery. S. Splenic artery. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2413_END_INCLUDE_IMAGE_
Gray989.png Schematic figure of the bursa omentalis, etc. Human embryo of eight weeks. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2414_END_INCLUDE_IMAGE_
Gray990.png Diagrams to illustrate the development of the greater omentum and transverse mesocolon. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2415_END_INCLUDE_IMAGE_
Gray991.png Tail end of human embryo from fifteen to eighteen days old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2416_END_INCLUDE_IMAGE_
Gray992.png Cloaca of human embryo from twenty-five to twenty-seven days old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2417_END_INCLUDE_IMAGE_
Gray993.png Tail end of human embryo, from eight and a half to nine weeks old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2418_END_INCLUDE_IMAGE_
Gray994.png Sagittal section of nose mouth, pharynx, and larynx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2419_END_INCLUDE_IMAGE_
Gray995.png Side view of the teeth and jaws. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2420_END_INCLUDE_IMAGE_
Gray996.png Permanent teeth of upper dental arch, seen from below. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2421_END_INCLUDE_IMAGE_
Gray997.png Permanent teeth of right half of lower dental arch, seen from above. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2422_END_INCLUDE_IMAGE_
Gray998.png Maxillæ at about one year. (Noyes.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2423_END_INCLUDE_IMAGE_
Gray999.png The complete temporary dentition (about three years), showing the relation of the developing permanent teeth. (Noyes.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2424_END_INCLUDE_IMAGE_
Gray1000.png The complete temporary dentition and the first permanent molar. Note the relation of the bicuspids to the temporary molars. (In the seventh year.) (Noyes.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2425_END_INCLUDE_IMAGE_
Gray1001.png Front view of the skull shown in Fig. 1000. Note the relation of the permanent incisors and cuspids to each other and the roots of the temporary teeth. (Noyes.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2426_END_INCLUDE_IMAGE_
Gray1002.png Permanent teeth. Right side. (Burchard.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2427_END_INCLUDE_IMAGE_
Gray1003.png The permanent teeth, viewed from the right. The external layer of bone has been partly removed and the maxillary sinus has been opened. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2428_END_INCLUDE_IMAGE_
Gray1004.png Deciduous teeth. Left side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2429_END_INCLUDE_IMAGE_
Gray1005.png Vertical section of a tooth in situ. X 15. c is placed in the pulp cavity, opposite the neck of the tooth; the part above it is the crown, that below is the root. 1. Enamel with radial and concentric markings. 2. Dentin with tubules and incremental lines. 3. Cement or crusta petrosa, with bone corpuscles. 4. Dental periosteum. 5. Mandible. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2430_END_INCLUDE_IMAGE_
Gray1006.png Vertical section of a molar tooth. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2431_END_INCLUDE_IMAGE_
Gray1007.png Vertical section of a premolar tooth. (Magnified.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2432_END_INCLUDE_IMAGE_
Gray1008.png Transverse section of a portion of the root of a canine tooth. X 300. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2433_END_INCLUDE_IMAGE_
Gray1009.png Sagittal section through the first lower deciduous molar of a human embryo 30 mm. long. (Röse.) X 100. L.E.L. Labiodental lamina, here separated from the dental lamina. Z.L. Placed over the shallow dental furrow, points to the dental lamina, which is spread out below to form the enamel germ of the future tooth. P.p. Bicuspidate papilla, capped by the enamel germ. Z.S. Condensed tissue forming dental sac. M.E. Mouth epithelium 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2434_END_INCLUDE_IMAGE_
Gray1010.png Similar section through the canine tooth of an embryo 40 mm. long. (Röse.) X 100. L.F. Labio dental furrow. The other lettering as in Fig. 1009 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2435_END_INCLUDE_IMAGE_
Gray1011.png Vertical section of the mandible of an early human fetus. X 25. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2436_END_INCLUDE_IMAGE_
Gray1012.png Longitudinal section of the lower part of a growing tooth, showing the extension of the layer of adamantoblasts beyond the crown to mark off the limit of formation of the dentin of the root. (Röse.) ad. Adamantoblasts, continuous below with ep.sch., the epithelial sheath of Hertwig. d. Dentin. en. Enamel. od. Odontoblasts. p. Pulp. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2437_END_INCLUDE_IMAGE_
Gray1013.png The mouth cavity. The apex of the tongue is turned upward, and on the right side a superficial dissection of its under surface has been made. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2438_END_INCLUDE_IMAGE_
Gray1014.png The mouth cavity. The cheeks have been slit transversely and the tongue pulled forward. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2439_END_INCLUDE_IMAGE_
Gray1015.png Circumvallate papilla in vertical section, showing arrangement of the taste-buds and nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2440_END_INCLUDE_IMAGE_
Gray1016.png A filiform papilla. Magnified 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2441_END_INCLUDE_IMAGE_
Gray1017.png Section of a fungiform papilla. Magnified. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2442_END_INCLUDE_IMAGE_
Gray1018.png Semidiagrammatic view of a portion of the mucous membrane of the tongue. Two fungiform papillæ are shown. On some of the filiform papillæ the epithelial prolongations stand erect, in one they are spread out, and in three they are folded in. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2443_END_INCLUDE_IMAGE_
Gray1019.png Extrinsic muscles of the tongue. Left side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2444_END_INCLUDE_IMAGE_
Gray1020.png Coronal section of tongue, showing intrinsic muscles. (Altered from Krause.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2445_END_INCLUDE_IMAGE_
Gray1021.png Vertical section of papilla foliata of the rabbit, passing across the folia. (Ranvier.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2446_END_INCLUDE_IMAGE_
Gray1022.png Right parotid gland. Posterior and deep aspects. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2447_END_INCLUDE_IMAGE_
Gray1023.png Right parotid gland. Deep and anterior aspects. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2448_END_INCLUDE_IMAGE_
Gray1024.png Dissection, showing salivary glands of right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2449_END_INCLUDE_IMAGE_
Gray1025.png Section of submaxillary gland of kitten. Duct semidiagrammatic. X 200. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2450_END_INCLUDE_IMAGE_
Gray1026.png Human submaxillary gland. (R. Heidenhain.) At the right is a group of mucous alveoli, at the left a group of serous alveoli. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2451_END_INCLUDE_IMAGE_
Gray1027.png Section through one of the crypts of the tonsil. (Stöhr.) Magnified. e. Stratified epithelium of general surface, continued into crypt. f, f. Nodules of lymphoid tissue—opposite each nodule numbers of lymph cells are passing into or through the epithelium. s, s. Cells which have thus escaped to mix with the saliva as salivary corpuscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2452_END_INCLUDE_IMAGE_
Gray1028.png Dissection of the muscles of the palate from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2453_END_INCLUDE_IMAGE_
Gray1029.png Front of nasa part of pharynx, as seen with the laryngoscope. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2454_END_INCLUDE_IMAGE_
Gray1030.png Muscles of the pharynx and cheek. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2455_END_INCLUDE_IMAGE_
Gray1031.png Muscles of the pharynx, viewed from behind, together with the associated vessels and nerves. (Modified after Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2456_END_INCLUDE_IMAGE_
Gray1032.png The position and relation of the esophagus in the cervical region and in the posterior mediastinum. Seen from behind. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2457_END_INCLUDE_IMAGE_
Gray1033.png Section of the human esophagus. (From a drawing by V. Horsley.) Moderately magnified. The section is transverse and from near the middle of the gullet. a. Fibrous covering. b. Divided fibers of longitudinal muscular coat. c. Transverse muscular fibers. d. Submucous or areolar layer. e. Muscularis mucosæ. f. Mucous membrane, with vessels and part of a lymphoid nodule. g. Stratified epithelial lining. h. Mucous gland. i. Gland duct. m’. Striated muscular fibers cut across. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2458_END_INCLUDE_IMAGE_
Gray1034.png Front view of the thoracic and abdominal viscera. a. Median plane. b b. Lateral planes. c c. Trans tubercular plane. d d. Subcostal plane. e e. Transpyloric plane. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2459_END_INCLUDE_IMAGE_
Gray1035.png Vertical disposition of the peritoneum. Main cavity, red; omental bursa, blue. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2460_END_INCLUDE_IMAGE_
Gray1036.png Posterior view of the anterior abdominal wall in its lower half. The peritoneum is in place, and the various cords are shining through. (After Joessel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2461_END_INCLUDE_IMAGE_
Gray1037.png The peritoneum of the male pelvis. (Dixon and Birmingham.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2462_END_INCLUDE_IMAGE_
Gray1038.png Horizontal disposition of the peritoneum in the lower part of the abdomen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2463_END_INCLUDE_IMAGE_
Gray1039.png Horizontal disposition of the peritoneum in the upper part of the abdomen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2464_END_INCLUDE_IMAGE_
Gray1040.png Diagram devised by Delépine to show the lines along which the peritoneum leaves the wall of the abdomen to invest the viscera. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2465_END_INCLUDE_IMAGE_
Gray1041.png Superior and inferior duodenal fossæ. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2466_END_INCLUDE_IMAGE_
Gray1042.png Duodenojejunal fossa. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2467_END_INCLUDE_IMAGE_
Gray1043.png Superior ileocecal fossa. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2468_END_INCLUDE_IMAGE_
Gray1044.png Inferior ileocecal fossa. The cecum and ascending colon have been drawn lateralward and downward, the ileum upward and backward, and the vermiform process downward. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2469_END_INCLUDE_IMAGE_
Gray1045.png The cecal fossa. The ileum and cecum are drawn backward and upward. (Souligoux.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2470_END_INCLUDE_IMAGE_
Gray1046.png Outline of stomach, showing its anatomical landmarks. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2471_END_INCLUDE_IMAGE_
Gray1047.png Diagram showing shape and position of empty stomach. Erect posture. (Hertz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2472_END_INCLUDE_IMAGE_
Gray1048.png Diagram showing shape and position of moderately filled stomach. Erect posture. (Hertz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2473_END_INCLUDE_IMAGE_
Gray1049.png Diagram showing shape and position of distended stomach. Erect posture. (Hertz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2474_END_INCLUDE_IMAGE_
Gray1050.png Interior of the stomach. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2475_END_INCLUDE_IMAGE_
Gray1051.png The longitudinal and circular muscular fibers of the stomach, viewed from above and in front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2476_END_INCLUDE_IMAGE_
Gray1052.png The oblique muscular fibers of the stomach, viewed from above and in front. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2477_END_INCLUDE_IMAGE_
Gray1053.png Section of mucous membrane of human stomach, near the cardiac orifice. (v. Ebner, after J. Schaffer.) X 45. c. Cardiac glands. d. Their ducts. cr. Gland similar to the intestinal glands, with goblet cells. mm. Mucous membrane. m. Muscularis mucosæ. m’. Muscular tissue within the mucous membrane. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2478_END_INCLUDE_IMAGE_
Gray1054.png A pyloric gland, from a section of the dog’s stomach. (Ebstein.) m. Mouth. n. Neck. tr. A deep portion of a tubule cut transversely. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2479_END_INCLUDE_IMAGE_
Gray1055.png A fundus gland. A. Transverse section of gland. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2480_END_INCLUDE_IMAGE_
Gray1056.png The duodenum and pancreas. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2481_END_INCLUDE_IMAGE_
Gray1057.png Interior of the descending portion of the duodenum, showing bile papilla. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2482_END_INCLUDE_IMAGE_
Gray1058.png Section of duodenum of cat. (After Schäfer.) X 60. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2483_END_INCLUDE_IMAGE_
Gray1059.png Vertical section of a villus from the dog’s small intestine. X 80. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2484_END_INCLUDE_IMAGE_
Gray1060.png Transverse section of a villus, from the human intestine. (v. Ebner.) X 350. a. Basement membrane, here somewhat shrunken away from the epithelium. b. Lacteal. c. Columnar epithelium. d. Its striated border. e. Goblet cells. f. Leucocytes in epithelium. f’. Leucocytes below epithelium. g. Bloodvessels. h. Muscle cells cut across. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2485_END_INCLUDE_IMAGE_
Gray1061.png Villi of small intestine, showing bloodvessels and lymphatic vessels. (Cadiat.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2486_END_INCLUDE_IMAGE_
Gray1062.png An intestinal gland from the human intestine. (Flemming.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2487_END_INCLUDE_IMAGE_
Gray1063.png Vertical section of a human aggregated lymphatic nodule, injected through its lymphatic canals. a. Villi with their chyle passages. b. Intestinal glands. c. Muscularis mucosæ. d. Cupola or apex of solitary nodule. e. Mesial zone of nodule. f. Base of nodule. g. Points of exit of the lacteals from the villi, and entrance into the true mucous membrane. h. Retiform arrangement of the lymphatics in the mesial zone. i. Course of the latter at the base of the nodule. k. Confluence of the lymphatics opening into the vessels of the submucous tissue. l. Follicular tissue of the latter. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2488_END_INCLUDE_IMAGE_
Gray1064.png Transverse section through the equatorial plane of three aggregated lymphatic nodules from the rabbit. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2489_END_INCLUDE_IMAGE_
Gray1065.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2490_END_INCLUDE_IMAGE_
Gray1066.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2491_END_INCLUDE_IMAGE_
Gray1067.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2492_END_INCLUDE_IMAGE_
Gray1068.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2493_END_INCLUDE_IMAGE_
Gray1069.png No caption. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2494_END_INCLUDE_IMAGE_
Gray1070.png —Diagrams showing the arrangement and variations of the loops of the mesenteric vessels for various segments of the small intestine of average length. Nearest the duodenum the mesenteric loops are primary, the vasa recta are long and regular in distribution, and the translucent spaces (lunettes) are extensive. Toward the ileocolic junction, secondary and tertiary loops are observed, the vessels are smaller and become obscured by numerous fat-tabs. (After Monks.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2495_END_INCLUDE_IMAGE_
Gray1071.png The myenteric plexus from the rabbit. X 50. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2496_END_INCLUDE_IMAGE_
Gray1072.png The plexus of the submucosa from the rabbit. X 50. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2497_END_INCLUDE_IMAGE_
Gray1073.png The cecum and vermiform process, with their arteries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2498_END_INCLUDE_IMAGE_
Gray1074.png Transverse section of human vermiform process. X 20. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2499_END_INCLUDE_IMAGE_
Gray1075.png Interior of the cecum and lower end of ascending colon, showing colic valve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2500_END_INCLUDE_IMAGE_
Gray1076.png Iliac colon, sigmoid or pelvic colon, and rectum seen from the front, after removal of pubic bones and bladder. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2501_END_INCLUDE_IMAGE_
Gray1077.png The posterior aspect of the rectum exposed by removing the lower part of the sacrum and the coccyx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2502_END_INCLUDE_IMAGE_
Gray1078.png Coronal section of rectum and anal canal. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2503_END_INCLUDE_IMAGE_
Gray1079.png Coronal section through the anal canal. (Symington.) B. Cavity of urinary bladder. V.D. Ductus deferens. S.V. Seminal vesicle. R. Second part of rectum. A.C. Anal canal. L.A. Levator ani. I.S. Sphincter ani internus. E.S. Sphinear ani externus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2504_END_INCLUDE_IMAGE_
Gray1080.png The interior of the anal cami and lower part of the rectum, showing the columns of Morgagni and the anal valves between their lower ends. The columns were more numerous in the specimen than usual. (Cunningham.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2505_END_INCLUDE_IMAGE_
Gray1081.png Inner wall of the lower end of the rectum and anus. On the right the mucous membrane has been removed to show the dilatation of the veins and how they pass through the muscular wall to anastomose with the external hemorrhoidal plexus. (Luschka.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2506_END_INCLUDE_IMAGE_
Gray1082.png Section of mucous membrane of human rectum. (Sobotta.) X 60. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2507_END_INCLUDE_IMAGE_
Gray1083.png The bloodvessels of the rectum and anus, showing the distribution and anastomosis on the posterior surface near the termination of the gut. (Poirier and Charpy) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2508_END_INCLUDE_IMAGE_
Gray1084.png Varieties of oblique inguinal hernia. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2509_END_INCLUDE_IMAGE_
Gray1085.png The superior surface of the liver. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2510_END_INCLUDE_IMAGE_
Gray1086.png Inferior surface of the liver. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2511_END_INCLUDE_IMAGE_
Gray1087.png Posterior and inferior surfaces of the liver. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2512_END_INCLUDE_IMAGE_
Gray1088.png Liver with the septum transversum. Human embryo 3 mm. long. (After model and figure by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2513_END_INCLUDE_IMAGE_
Gray1089.png Longitudinal section of a hepatic vein. (After Kiernan.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2514_END_INCLUDE_IMAGE_
Gray1090.png Longitudinal section of a small portal vein and canal. (After Kiernan.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2515_END_INCLUDE_IMAGE_
Gray1091.png Section of injected liver (dog). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2516_END_INCLUDE_IMAGE_
Gray1092.png A single lobule of the liver of a pig. X 60. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2517_END_INCLUDE_IMAGE_
Gray1093.png Section across portal canal of pig. X 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2518_END_INCLUDE_IMAGE_
Gray1094.png Bile capillaries of rabbit. shown by Golgi’s method. X 450. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2519_END_INCLUDE_IMAGE_
Gray1095.png The gall-bladder and bile ducts laid open. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2520_END_INCLUDE_IMAGE_
Gray1096.png Transverse section of gall-bladder. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2521_END_INCLUDE_IMAGE_
Gray1097.png Transverse section through the middle of the first lumbar vertebra, showing the relations of the pancreas. (Braune.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2522_END_INCLUDE_IMAGE_
Gray1098.png The duodenum and pancreas. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2523_END_INCLUDE_IMAGE_
Gray1099.png The pancreas and duodenum from behind. (From model by His.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2524_END_INCLUDE_IMAGE_
Gray1100.png The pancreatic duct. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2525_END_INCLUDE_IMAGE_
Gray1101.png Pancreas of a human embryo of five weeks. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2526_END_INCLUDE_IMAGE_
Gray1102.png Pancreas of a human embryo at end of sixth week. (Kollmann.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2527_END_INCLUDE_IMAGE_
Gray1103.png Schematic and enlarged cross-section through the body of a human embryo in the region of the mesogastrium. Beginning of third month. (Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2528_END_INCLUDE_IMAGE_
Gray1104.png Section through same region as in Fig. 1103, at end of third month. (Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2529_END_INCLUDE_IMAGE_
Gray1105.png Section of pancreas of dog. X 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2530_END_INCLUDE_IMAGE_
Gray1106.png Section of the urogenital fold of a chick embryo of the fourth day. (Waldeyer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2531_END_INCLUDE_IMAGE_
Gray1107.png Enlarged view from the front of the left Wolffian body before the establishment of the distinction of sex. (From Farre, after Kobelt.) a, a, b, c, d. Tubular structure of the Wolffian body. e. Wolffian duct. f. Its upper extremity. g. Its termination in x, the urogenital sinus. h. The duct of Müller. i. Its upper, funnel-shaped extremity. k. Its lower end, terminating in the urogenital sinus. l. The genital gland. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2532_END_INCLUDE_IMAGE_
Gray1108.png Broad ligament of adult, showing epoöphoron. (From Farre, after Kobelt.) a, a. Epoöphoron formed from the upper part of the Wolffian body. b. Remains of the uppermost tubes sometimes forming appendices. c. Middle set of tubes. d. Some lower atrophied tubes. e. Atrophied remains of the Wolffian duct. f. The terminal bulb or hydatid. h. The uterine tube, originally the duct of Müller. i. Appendix attached to the extremity. l. The ovary. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2533_END_INCLUDE_IMAGE_
Gray1109.png Urogenital sinus of female human embryo of eight and a half to nine weeks old. (From model by Keibel) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2534_END_INCLUDE_IMAGE_
Gray1110.png Diagrams to show the development of male and female generative organs from a common type. (Allen Thomson.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2535_END_INCLUDE_IMAGE_
Gray1111.png Transverse section of human embryo eight and a half to nine weeks old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2536_END_INCLUDE_IMAGE_
Gray1112.png Longitudinal section of ovary of cat embryo of 9.4 cm. long. Schematic. (After Cœrt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2537_END_INCLUDE_IMAGE_
Gray1113.png Section of the ovary of a newly born child. (Waldeyer.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2538_END_INCLUDE_IMAGE_
Gray1114.png Section of a genital cord of the testis of a human embryo 3.5 cm. long. (Felix and Bühler.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2539_END_INCLUDE_IMAGE_
Gray1115.png Tail end of human embryo twenty-five to twenty-nine days old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2540_END_INCLUDE_IMAGE_
Gray1116.png Tail end of human embryo thirty-two to thirty-three days old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2541_END_INCLUDE_IMAGE_
Gray1117.png Tail end of human embryo; from eight and a half to nine weeks old. (From model by Keibel.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2542_END_INCLUDE_IMAGE_
Gray1118.png Primitive kidney and bladder, from a reconstruction. (After Schreiner.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2543_END_INCLUDE_IMAGE_
Gray1119.png Stages in the development of the external sexual organs in the male and female. (Drawn from the Ecker-Ziegler models.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2544_END_INCLUDE_IMAGE_
Gray1120.png The relations of the viscera and large vessels of the abdomen. (Seen from behind, the last thoracic vertebra being well raised.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2545_END_INCLUDE_IMAGE_
Gray1121.png Posterior abdominal wall, after removal of the peritoneum, showing kidneys, suprarenal capsules, and great vessels. (Corning). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2546_END_INCLUDE_IMAGE_
Gray1122.png The anterior surfaces of the kidneys, showing the areas of contact of neighboring viscera. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2547_END_INCLUDE_IMAGE_
Gray1123.png The posterior surfaces of the kidneys, showing areas of relation to the parietes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2548_END_INCLUDE_IMAGE_
Gray1124.png The relations of the kidneys from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2549_END_INCLUDE_IMAGE_
Gray1125.png Sagittal section through posterior abdominal wall, showing the relations of the capsule of the kidney. (After Gerota). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2550_END_INCLUDE_IMAGE_
Gray1126.png Transverse section, showing the relations of the capsule of the kidney. (After Gerota.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2551_END_INCLUDE_IMAGE_
Gray1127.png Vertical section of kidney. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2552_END_INCLUDE_IMAGE_
Gray1128.png Scheme of renal tubule and its vascular supply. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2553_END_INCLUDE_IMAGE_
Gray1129.png Distribution of bloodvessels in cortex of kidney. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2554_END_INCLUDE_IMAGE_
Gray1130.png Glomerulus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2555_END_INCLUDE_IMAGE_
Gray1131.png Longitudinal section of descending limb of Henle’s loop. a. Membrana propria. b. Epithelium. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2556_END_INCLUDE_IMAGE_
Gray1132.png Section of cortex of human kidney. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2557_END_INCLUDE_IMAGE_
Gray1133.png Transverse section of pyramidal substance of kidney of pig, the bloodvessels of which are injected. a. Large collecting tube, cut across, lined with cylindrical epithelium. b. Branch of collecting tube, cut across, lined with cubical epithelium. c, d. Henle’s loops cut across. e. Bloodvessels cut across. D. Connective tissue ground substance. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2558_END_INCLUDE_IMAGE_
Gray1134.png Transverse section of ureter. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2559_END_INCLUDE_IMAGE_
Gray1135.png Median sagitta section of male pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2560_END_INCLUDE_IMAGE_
Gray1136.png Male pelvic organs seen from right side. Bladder and rectum distended; relations of peritoneum to the bladder and rectum shown in blue. The arrow points to the rectovesical pouch. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2561_END_INCLUDE_IMAGE_
Gray1137.png Sagittal section through the pelvis of a newly born male child. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2562_END_INCLUDE_IMAGE_
Gray1138.png Sagittal section through the pelvis of a newly born female child. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2563_END_INCLUDE_IMAGE_
Gray1139.png Median sagittal section of female pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2564_END_INCLUDE_IMAGE_
Gray1140.png The interior of bladder. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2565_END_INCLUDE_IMAGE_
Gray1141.png Vertical section of bladder wall. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2566_END_INCLUDE_IMAGE_
Gray1142.png The male urethra laid open on its anterior (upper) surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2567_END_INCLUDE_IMAGE_
Gray1143.png The scrotum. On the left side the cavity of the tunica vaginalis has been opened; on the right side only the layers superficial to the Cremaster have been removed. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2568_END_INCLUDE_IMAGE_
Gray1144.png The scrotum. The penis has been turned upward, and the anterior wall of the scrotum has been removed. On the right side, the spermatic cord, the infundibuliform fascia, and the Cremaster muscle are displayed; on the left side, the infundibuliform fascia has been divided by a longitudinal incision passing along the front of the cord and the testicle, and a portion of the parietal layer of the tunica vaginalis has been removed to display the testicle and a portion of the head of the epididymis, which are covered by the visceral layer of the tunica vaginalis. (Toldt.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2569_END_INCLUDE_IMAGE_
Gray1145.png Transverse section through the left side of the scrotum and the left testis. The sac of the tunica vaginalis is represented in a distended condition. (Diagrammatic.) (Delépine.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2570_END_INCLUDE_IMAGE_
Gray1146.png The spermatic cord in the inguinal canal. (Poirier and Charpy.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2571_END_INCLUDE_IMAGE_
Gray1147.png Spermatic veins. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2572_END_INCLUDE_IMAGE_
Gray1148.png The right testis, exposed by laying open the tunica vaginalis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2573_END_INCLUDE_IMAGE_
Gray1149.png Vertical section of the testis, to show the arrangement of the ducts. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2574_END_INCLUDE_IMAGE_
Gray1150.png Transverse section of a tubule of the testis of a rat. X 250. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2575_END_INCLUDE_IMAGE_
Gray1151.png Section of epididymis of guinea-pig. X 255. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2576_END_INCLUDE_IMAGE_
Gray1152.png Fundus of the bladder with the vesiculæ seminales. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2577_END_INCLUDE_IMAGE_
Gray1153.png Vesiculæ seminales and ampullæ of ductus deferentes, seen from the front. The anterior walls of the left ampulla, left seminal vesicle, and prostatic urethra have been cut away. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2578_END_INCLUDE_IMAGE_
Gray1154.png The constituent cavernous cylinders of the penis. The glans and anterior part of the corpus cavernosum urethræ are detached from the corpora cavernosa penis and turned to one side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2579_END_INCLUDE_IMAGE_
Gray1155.png Transverse section of the penis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2580_END_INCLUDE_IMAGE_
Gray1156.png Vertical section of bladder, penis, and urethra. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2581_END_INCLUDE_IMAGE_
Gray1157.png Section of corpus cavernosum penis in a non-distended condition. (Cadiat.) a. Trabeculæ of connective tissue, with many elastic fibers and bundles of plain muscular tissue, some of which are cut across (c). b. Blood sinuses. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2582_END_INCLUDE_IMAGE_
Gray1158.png Diagram of the arteries of the penis. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2583_END_INCLUDE_IMAGE_
Gray1159.png Veins of the penis. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2584_END_INCLUDE_IMAGE_
Gray1160.png Prostate with seminal vesicles and seminal ducts, viewed from in front and above. (Spalteholz.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2585_END_INCLUDE_IMAGE_
Gray1161.png Uterus and right broad ligament, seen from behind. The broad ligament has been spread out and the ovary drawn downward. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2586_END_INCLUDE_IMAGE_
Gray1162.png Adult ovary, epoöphoron, and uterine tube. (From Farre, after Kobelt.) a, a. Epoöphoron formed from the upper part of the Wolffian body. b. Remains of the uppermost tubes sometimes forming hydatids. c. Middle set of tubes. d. Some lower atrophied tubes. e. Atrophied remains of the Wolffian duct. f. The terminal bulb or hydatid. h. The uterine tube. i. Hydatid attached to the extremity. l. The ovary. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2587_END_INCLUDE_IMAGE_
Gray1163.png Section of the ovary. (After Schrön.) 1. Outer covering. 1’. Attached border. 2. Central stroma. 3. Peripheral stroma. 4. Bloodvessels. 5. Vesicular follicles in their earliest stage. 6, 7, 8. More advanced follicles. 9. An almost mature follicle. 9’. Follicle from which the ovum has escaped. 10. Corpus luteum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2588_END_INCLUDE_IMAGE_
Gray1164.png Section of vesicular ovarian follicle of cat. X 50. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2589_END_INCLUDE_IMAGE_
Gray1165.png Female pelvis and its contents, seen from above and in front. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2590_END_INCLUDE_IMAGE_
Gray1166.png Sagittal section of the lower part of a female trunk, right segment. SM. INT. Small intestine. (Testut.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2591_END_INCLUDE_IMAGE_
Gray1167.png Posterior half of uterus and upper part of vagina. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2592_END_INCLUDE_IMAGE_
Gray1168.png Sagittal section through the pelvis of a newly born female. child. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2593_END_INCLUDE_IMAGE_
Gray1169.png Vertical section of mucous membrane of human uterus. (Sobotta.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2594_END_INCLUDE_IMAGE_
Gray1170.png The arteries of the internal organs of generation of the female, seen from behind. (After Hyrtl.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2595_END_INCLUDE_IMAGE_
Gray1171.png External genital organs of female. The labia minora have been drawn apart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2596_END_INCLUDE_IMAGE_
Gray1172.png Dissection of the lower half of the mamma during the period of lactation. (Luschka.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2597_END_INCLUDE_IMAGE_
Gray1173.png Section of portion of mamma. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2598_END_INCLUDE_IMAGE_
Gray1174.png The thyroid gland and its relations. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2599_END_INCLUDE_IMAGE_
Gray1175.png Scheme showing development of branchial epithelial bodies. (Modified from Koh.) I, II, III, IV. Branchial pouches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2600_END_INCLUDE_IMAGE_
Gray1176.png Section of thyroid gland of sheep. X 160. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2601_END_INCLUDE_IMAGE_
Gray1177.png Parathyroid glands. (Halsted and Evans.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2602_END_INCLUDE_IMAGE_
Gray1178.png The thymus of a full-time fetus, exposed in situ. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2603_END_INCLUDE_IMAGE_
Gray1179.png Minute structure of thymus. Follicle of injected thymus from calf, four days old, slightly diagrammatic, magnified about 50 diameters. The large vessels are disposed in two rings, one of which surrounds the follicle, the other lies just within the margin of the medulla. (Watney.) A and B. From thymus of camel, examined without addition of any reagent. Magnified about 400 diameters. A. Large colorless cell, containing small oval masses of hemoglobin. Similar cells are found in the lymph glands, spleen, and medulla of bone. B. Colored blood corpuscles. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2604_END_INCLUDE_IMAGE_
Gray1180.png The hypophysis cerebri in position. Shown in sagittal section. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2605_END_INCLUDE_IMAGE_
Gray1181.png Median sagittal through the hypophysis of an adult monkey. Semidiagrammatic. (Herring.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2606_END_INCLUDE_IMAGE_
Gray1182.png Vertical sections of the heads of early embryos of the rabbit. Magnified. (From Mihalkovics.) A. From an embryo 5 mm. long. B. From an embryo 6 mm. long. C. Vertical section of the anterior end of the notochord and hypophysis, etc., from an embryo 16 mm. long. In A the buccopharyngeal membrane is still present. In B it is in the process of disappearing, and the stomodeum now communicates with the primitive pharynx. am. Amnion. c. Fore-brain. ch. Notochord. f. Anterior extremity of fore-gut, i. h. Heart. if. Infundibulum. m. Wall of brain cavity. mc. Mid-brain. mo. Hind-brain. p. Original position of hypophyseal diverticulum, py. ph. Pharynx. sp.e. Sphenoethmoidal. bc. Central. sp.o. Sphenoöccipital parts of basis cranii. tha. Thalamus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2607_END_INCLUDE_IMAGE_
Gray1183.png Suprarenal glands viewed from the front. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2608_END_INCLUDE_IMAGE_
Gray1184.png Suprarenal glands viewed from behind. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2609_END_INCLUDE_IMAGE_
Gray1185.png Section of a part of a suprarenal gland. (Magnified.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2610_END_INCLUDE_IMAGE_
Gray1186.png Section of part of human glomus caroticum. (Schaper.) Highly magnified. Numerous bloodvessels are seen in section among the gland cells. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2611_END_INCLUDE_IMAGE_
Gray1187.png Section of an irregular nodule of the glomus coccygeum. (Sertoli.) X 85. The section shows the fibrous covering of the nodule, the bloodvessels within it, and the epithelial cells of which it is constituted. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2612_END_INCLUDE_IMAGE_
Gray1188.png The visceral surface of the spleen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2613_END_INCLUDE_IMAGE_
Gray1189.png Transverse section of the spleen, showing the trabecular tissue and the splenic vein and its tributaries. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2614_END_INCLUDE_IMAGE_
Gray1190.png Transverse section of the human spleen, showing the distribution of the splenic artery and its branches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2615_END_INCLUDE_IMAGE_
Gray1191.png Transverse section of a portion of the spleen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2616_END_INCLUDE_IMAGE_
Gray1192.png Section of the spleen, showing the termination of the small bloodvessels. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2617_END_INCLUDE_IMAGE_
Gray1193.png Side view of head, showing surface relations of bones. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2618_END_INCLUDE_IMAGE_
Gray1194.png Anterolateral view of head and neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2619_END_INCLUDE_IMAGE_
Gray1195.png Front view of neck. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2620_END_INCLUDE_IMAGE_
Gray1196.png Diagrammatic section of scalp. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2621_END_INCLUDE_IMAGE_
Gray1197.png Drawing of a cast by Cunningham to illustrate the relations of the brain to the skull. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2622_END_INCLUDE_IMAGE_
Gray1198.png Relations of the brain and middle meningeal artery to the surface of the skull. 1. Nasion. 2. Inion. 3. Lambda. 4. Lateral cerebral fissure. 5. Central sulcus. AA. Reid’s base line. B. Point for trephining the anterior branch of the middle meningeal artery. C. Suprameatal triangle. D. Sigmoid bend of the transverse sinus. E. Point for trephining over the straight portion of the transverse sinus, exposing dura mater of both cerebrum and cerebellum. Outline of cerebral hemisphere indicated in blue; course of middle meningeal artery in red. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2623_END_INCLUDE_IMAGE_
Gray1199.png Outline of bones of face, showing position of air sinuses. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2624_END_INCLUDE_IMAGE_
Gray1200.png Outline of side of face, showing chief surface markings. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2625_END_INCLUDE_IMAGE_
Gray1201.png The mouth cavity. The cheeks have been slit transversely and the tongue pulled forward. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2626_END_INCLUDE_IMAGE_
Gray1202.png The mouth cavity. The apex of the tongue is turned upward, and on the right side a superficial dissection of its under surface has been made. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2627_END_INCLUDE_IMAGE_
Gray1203.png Front of nasal part of pharynx, as seen with the laryngoscope. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2628_END_INCLUDE_IMAGE_
Gray1204.png Laryngoscopic view of interior of larynx 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2629_END_INCLUDE_IMAGE_
Gray1205.png Front of left eye with eyelids separated to show medial canthus. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2630_END_INCLUDE_IMAGE_
Gray1206.png The interior of the posterior half of the left eyeball. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2631_END_INCLUDE_IMAGE_
Gray1207.png The auricula or pinna. Lateral surface. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2632_END_INCLUDE_IMAGE_
Gray1208.png The right tympanic membrane as seen through a speculum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2633_END_INCLUDE_IMAGE_
Gray1209.png Left temporal bone showing surface markings for the tympanic antrum (red), transverse sinus (blue), and facial nerve (yellow). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2634_END_INCLUDE_IMAGE_
Gray1210.png Side of neck, showing chief surface markings. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2635_END_INCLUDE_IMAGE_
Gray1211.png Surface anatomy of the back. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2636_END_INCLUDE_IMAGE_
Gray1212.png Diagram showing the relation of the medulla spinalis to the dorsal surface of the trunk. The bones are outlined in red. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2637_END_INCLUDE_IMAGE_
Gray1213.png Sagittal section of vertebral canal to show the lower end of the medulla spinalis and the flum terminale. (Testut.) Li, Lv. First and fifth lumbar vertebra. S?? Second sacral vertebra. 1. Dura mater. 2. Lower part of subarachnoid cavity. 3. Lower extremity of medulla spinalis. 4. Filum terminale internum, and 5. Filum terminale externum. 6. Attachment of filum terminale to first segment of cooccyx. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2638_END_INCLUDE_IMAGE_
Gray1214.png Scheme showing the relations of the regions of attachment of the spinal nerves to the vertebral spinous processes. (After Reid.) 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2639_END_INCLUDE_IMAGE_
Gray1215.png The left side of the thorax. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2640_END_INCLUDE_IMAGE_
Gray1216.png Front of thorax, showing surface relations of bones, lungs (purple), pleura (blue), and heart (red outline). P. Pulmonary valve. A. Aortic valve. B. Bicuspid valve. T. Tricuspid valve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2641_END_INCLUDE_IMAGE_
Gray1217.png Side of thorax, showing surface markings for bones, lungs (purple), pleura (blue), and spleen (green). 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2642_END_INCLUDE_IMAGE_
Gray1218.png Diagram showing relations of opened heart to front of thoracic wall. Ant. Anterior segment of tricuspid valve. A O. Aorta. A.P. Anterior papillary muscle. In. Innominate artery. L.C.C. Left common carotid artery. L.S. Left subclavian artery. L.V. Left ventricle. P.A. Pulmonary artery. R.A. Right atrium. R.V. Right ventricle. V.S. Ventricular septum. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2643_END_INCLUDE_IMAGE_
Gray1219.png Surface anatomy of the front of the thorax and abdomen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2644_END_INCLUDE_IMAGE_
Gray1220.png Surface lines of the front of the thorax and abdomen. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2645_END_INCLUDE_IMAGE_
Gray1221.png With the patient in the erect posture. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2646_END_INCLUDE_IMAGE_
Gray1222.png With the patient lying down. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2647_END_INCLUDE_IMAGE_
Gray1223.png Front of abdomen, showing surface markings for liver, stomach, and great intestine. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2648_END_INCLUDE_IMAGE_
Gray1224.png Topography of thoracic and abdominal viscera. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2649_END_INCLUDE_IMAGE_
Gray1225.png Front of abdomen, showing surface markings for duodenum, pancreas, and kidneys. A A’. Plane through joint between body and xiphoid process of sternum. B B’. Plane midway between A A’ and transpyloric plane. C C’. Plane midway between transpyloric and transtubercular planes. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2650_END_INCLUDE_IMAGE_
Gray1226.png Back of lumbar region, showing surface markings for kidneys, ureters, and spleen. The lower portions of the lung and pleura are shown on the right side. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2651_END_INCLUDE_IMAGE_
Gray1227.png Front of abdomen, showing surface markings for arteries and inguinal canal. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2652_END_INCLUDE_IMAGE_
Gray1228.png Median sagittal section of male pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2653_END_INCLUDE_IMAGE_
Gray1229.png External genital organs of female. The labia minora have been drawn apart. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2654_END_INCLUDE_IMAGE_
Gray1230.png Median sagittal section of female pelvis. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2655_END_INCLUDE_IMAGE_
Gray1231.png Front of right upper extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2656_END_INCLUDE_IMAGE_
Gray1232.png Back of right upper extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2657_END_INCLUDE_IMAGE_
Gray1233.png The mucous sheaths of the tendons on the front of the wrist and digits. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2658_END_INCLUDE_IMAGE_
Gray1234.png The mucous sheaths of the tendons on the back of the wrist. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2659_END_INCLUDE_IMAGE_
Gray1235.png Front of right upper extremity, showing surface markings for bones, arteries, and nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2660_END_INCLUDE_IMAGE_
Gray1236.png Back of right upper extremity, showing surface markings for bones and nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2661_END_INCLUDE_IMAGE_
Gray1237.png Palm of left hand, showing position of skin creases and bones, and surface markings for the volar arches. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2662_END_INCLUDE_IMAGE_
Gray1238.png Front and medial aspect of right thigh. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2663_END_INCLUDE_IMAGE_
Gray1239.png Back of left lower extremity. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2664_END_INCLUDE_IMAGE_
Gray1240.png Lateral aspect of right leg. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2665_END_INCLUDE_IMAGE_
Gray1241.png The mucous sheaths of the tendons around the ankle. Lateral aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2666_END_INCLUDE_IMAGE_
Gray1242.png The mucous sheaths of the tendons around the ankle. Medial aspect. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2667_END_INCLUDE_IMAGE_
Gray1243.png Nélaton’s line and Bryant’s triangle. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2668_END_INCLUDE_IMAGE_
Gray1244.png Left gluteal region, showing surface markings for arteries and sciatic nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2669_END_INCLUDE_IMAGE_
Gray1245.png Front of right thigh, showing surface markings for bones, femoral artery and femoral nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2670_END_INCLUDE_IMAGE_
Gray1246.png Lateral aspect of right leg, showing surface markings for bones, anterior tibial and dorsalis pedis arteries, and deep peroneal nerve. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2671_END_INCLUDE_IMAGE_
Gray1247.png Back of left lower extremity, showing surface markings for bones, vessels, and nerves. 26/01/2009 @ 3:50 jdmiles _INCLUDE_IMAGE_2672_END_INCLUDE_IMAGE_
Poly Gyria Dorsal with arrow Note that there more gyri here than you would expect to see in a normal brain. This is polygyria. The unnecessarily large green arrow points to some of these gyri. 30/01/2009 @ 8:26 jdmiles _INCLUDE_IMAGE_2673_END_INCLUDE_IMAGE_
Normal Neuropil for Comparison This is a sample of normal-appearing neuropil, prepared with the Bodian stain. This image was taken at 100x magnification. 01/02/2009 @ 17:17 gliageek _INCLUDE_IMAGE_2674_END_INCLUDE_IMAGE_
oligodendroglioma H&E with arrow The unnecessarily large green arrow points to the dark nucleus of one of the scores of oligodendroglioma cells seen in this image. Note the white halo around the dark nucleus. This appearance is typical of an oligodendroglioma. 01/02/2009 @ 17:30 jdmiles _INCLUDE_IMAGE_2675_END_INCLUDE_IMAGE_
Gomori Trichrome Normal Muscle This is a sample of normal muscle prepared with the Gomori Trichrome stain. Note the polygonal muscle fibers, which appear a bluish green. There are small white cracks in each muscle fiber - these are an artifact caused by ice crystals during preparation of the sample. 01/02/2009 @ 20:04 gliageek _INCLUDE_IMAGE_2676_END_INCLUDE_IMAGE_
Bilateral Pallidal Necrosis High This is a sample of gross brain, with bilateral pallidal necrosis. The necrotic areas are obscured with big green shaded areas. 01/02/2009 @ 20:52 jdmiles _INCLUDE_IMAGE_2677_END_INCLUDE_IMAGE_
Pseudopalisading Necrosis Explai `Palisading` is when cells line up next to each other, like slats in a picket fence. These rapidly proliferating tumor cells appear to palisade around the central pale area, which represents necrotic tissue (region shaded in yellow). Pseudopalisading necrosis is a common feature of glioblastoma multiforme (GBM), which is the tumor shown in this slide. 02/02/2009 @ 15:14 jdmiles _INCLUDE_IMAGE_2678_END_INCLUDE_IMAGE_
Normal Neuropil - Basic Cell Typ An H&E-stained section of normal neuropil. This shows some good examples of basic structures seen in the brain - neurons, oligodendrocytes, astrocytes, and capillaries. 02/02/2009 @ 16:28 jdmiles _INCLUDE_IMAGE_2679_END_INCLUDE_IMAGE_
Normal Neuropil - Highlighted The following structures are labeled by color: Neurons (green), Oligodendrocytes (blue), a Capillary (yellow), and an Astrocyte (red). 02/02/2009 @ 16:30 jdmiles _INCLUDE_IMAGE_2680_END_INCLUDE_IMAGE_
Normal Neuropil - Oligos This is normal neuropil, prepared with an H&E stain. The cells circled in blue are normal oligodendrocytes. 02/02/2009 @ 16:39 jdmiles _INCLUDE_IMAGE_2681_END_INCLUDE_IMAGE_
Cbllr GBM with arrow This is a GBM. The unnecessarily large green arrow indicates an area of necrosis. 04/02/2009 @ 3:18 jdmiles _INCLUDE_IMAGE_2682_END_INCLUDE_IMAGE_
IVL cd20hp with arrow This image illustrates intravascular lymphoma in brain. This sample is prepared with a CD-20 immune stain. The brownish staining cells are lymphoma cells which express CD20. Note that these cells remain within blood vessels. 04/02/2009 @ 10:00 jdmiles _INCLUDE_IMAGE_2683_END_INCLUDE_IMAGE_
Normal Cerebellum This is a preparation of normal cerebellum, stained with H&E. 04/02/2009 @ 13:09 jdmiles _INCLUDE_IMAGE_2684_END_INCLUDE_IMAGE_
Negri Bodies Characteristic Negri bodies are present within a Purkinje cell of the cerebellum in this patient who died of rabies.
Image courtesy of CDC/ Dr. Makonnen Fekadu.
This image is in the public domain and thus free of any copyright restrictions. As a matter of courtesy we request that the content provider be credited and notified in any public or private usage of this image. 		05/02/2009 @ 2:52 jdmiles _INCLUDE_IMAGE_2685_END_INCLUDE_IMAGE_
Negri Bodies - Labeled Characteristic Negri bodies are present within a Purkinje cell of the cerebellum in this patient who died of rabies.
The Negri bodies are circled in green. 		05/02/2009 @ 2:53 jdmiles _INCLUDE_IMAGE_2686_END_INCLUDE_IMAGE_
Photomicrograph of H&E stained Histopathologic brain tissue from a rabies patient displaying the pathognomonic finding of Negri Bodies within the neuronal cytoplasm, and stained using H&E stain.
Courtesy of CDC.
This image is in the public domain and thus free of any copyright restrictions. As a matter of courtesy we request that the content provider be credited and notified in any public or private usage of this image. 		05/02/2009 @ 2:58 jdmiles _INCLUDE_IMAGE_2687_END_INCLUDE_IMAGE_
Photomicrograph of H&E stained b The unnecessarily large green arrow points to a Negri body. Negri bodies are intracytoplasmic inclusions seen in rabies encephalitis. 05/02/2009 @ 3:01 jdmiles _INCLUDE_IMAGE_2688_END_INCLUDE_IMAGE_
Rabies - Negri Bodies H&E This micrograph depicts the histopathologic changes associated with rabies encephalitis prepared using an H&E stain.
Note the Negri bodies, which are cellular inclusions found most frequently in the pyramidal cells of Ammon's horn, and the Purkinje cells of the cerebellum. They are also found in the cells of the medulla and various other ganglia.
Courtesy of CDC / Dr. Daniel P. Perl
This image is in the public domain and thus free of any copyright restrictions. As a matter of courtesy we request that the content provider be credited and notified in any public or private usage of this image. 		05/02/2009 @ 3:15 jdmiles _INCLUDE_IMAGE_2689_END_INCLUDE_IMAGE_
Rabies - Negri Bodies H&E with a The unnecessarily large green arrow points to one of several Negri bodies visible in this image. They are dark pink blobs in the cytoplasm. 05/02/2009 @ 3:16 jdmiles _INCLUDE_IMAGE_2690_END_INCLUDE_IMAGE_
Negri Body from CDC Rabies page In 1903, Dr. Adelchi Negri reported the identification of what he believed to be the etiologic agent of rabies, the Negri body. In his report, he described Negri bodies as round or oval inclusions within the cytoplasm of nerve cells of animals infected with rabies. Negri bodies may vary in size from 0.25 to 27 µm. They are found most frequently in the pyramidal cells of Ammon's horn, and the Purkinje cells of the cerebellum. They are also found in the cells of the medulla and various other ganglia. Negri bodies can also be found in the neurons of the salivary glands, tongue, or other organs. Staining with Mann's, giemsa, or Sellers stains can permit differentiation of rabies inclusions from other intracellular inclusions. With these stains, Negri bodies appear magenta in color and have small (0.2 µm to 0.5 µm), dark-blue interior basophilic granules.
The presence of Negri bodies is variable. Histologic staining for Negri bodies is neither as sensitive nor as specific as other tests. Some experimentally-infected cases of rabies display Negri bodies in brain tissue; others do not. Histologic examination of tissues from clinically rabid animals show Negri bodies in about 50% of the samples; in contrast, the dFA test shows rabies antigen in nearly 100% of the samples. In other cases, non-rabid tissues have shown inclusions indistinquishable from Negri bodies. Because of these problems, the presence of Negri bodies should not be considered diagnostic for rabies.
Image and description courtesy of CDC.
Source: http://www.cdc.gov/rabies/diagnosis.html 		05/02/2009 @ 3:36 jdmiles _INCLUDE_IMAGE_2691_END_INCLUDE_IMAGE_
Normal Cerebellum - labelled This H&E-stained slice of normal cerebellum shows the molecular layer, the deeper Purkinje cell layer with the Purkinje cells circled (green), and the still deeper granule cell layer. 06/02/2009 @ 3:33 jdmiles _INCLUDE_IMAGE_2692_END_INCLUDE_IMAGE_
Normal Neuropil - Neurons Normal neuropil, with neurons highlighted in green. 07/02/2009 @ 12:07 jdmiles _INCLUDE_IMAGE_2693_END_INCLUDE_IMAGE_
TLDL 20x TLDL 20x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2694_END_INCLUDE_IMAGE_
ACTH ACTH 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2695_END_INCLUDE_IMAGE_
AD Occipital plaques 400x AD Occipital plaques 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2696_END_INCLUDE_IMAGE_
AD Occipital Cortex 200x AD Occipital Cortex 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2697_END_INCLUDE_IMAGE_
AD Occipital Neocortex Tau IHC AD Occipital Neocortex Tau IHC 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2698_END_INCLUDE_IMAGE_
Adenoma 40x Adenoma 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2699_END_INCLUDE_IMAGE_
Adenoma 400x Adenoma 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2700_END_INCLUDE_IMAGE_
Adenoma Smear 400x Adenoma Smear 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2701_END_INCLUDE_IMAGE_
AD hippocampus NFT and SP 400x AD hippocampus NFT and SP 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2702_END_INCLUDE_IMAGE_
AD hippocampus BAM ihc 100x AD hippocampus BAM ihc 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2703_END_INCLUDE_IMAGE_
AD hippocampus Tau IHC 200x AD hippocampus Tau IHC 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2704_END_INCLUDE_IMAGE_
AD hippocampus 200x AD hippocampus 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2705_END_INCLUDE_IMAGE_
AD hippocampus 40x AD hippocampus 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2706_END_INCLUDE_IMAGE_
ADnBM 400x ADnBM 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2707_END_INCLUDE_IMAGE_
AVM 20x AVM 20x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2708_END_INCLUDE_IMAGE_
Acute Ischemia Cerebellum Acute Ischemia Cerebellum 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2709_END_INCLUDE_IMAGE_
Adrenoleukodystrophy Adrenoleukodystrophy 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2710_END_INCLUDE_IMAGE_
Alexander Disease Subpial 200x Alexander Disease Subpial 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2711_END_INCLUDE_IMAGE_
Alexander Disease 20x Alexander Disease 20x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2712_END_INCLUDE_IMAGE_
Alexander Disease 400x Alexander Disease 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2713_END_INCLUDE_IMAGE_
Alzheimer type 2 astrocytes 400x Alzheimer type 2 astrocytes 400x a 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2714_END_INCLUDE_IMAGE_
Alzheimer type 2 astrocytes 400x Alzheimer type 2 astrocytes 400x b 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2715_END_INCLUDE_IMAGE_
Alzheimer Disease nBMx600 Alzheimer Disease nBMx600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2716_END_INCLUDE_IMAGE_
Amyloid Angiopathy Congo Red pol Amyloid Angiopathy Congo Red pol 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2717_END_INCLUDE_IMAGE_
Amyloid Angiopathy Congo Red Amyloid Angiopathy Congo Red 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2718_END_INCLUDE_IMAGE_
Anencephaly Sag WM 001 Anencephaly Sag WM 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2719_END_INCLUDE_IMAGE_
Anencephaly Saggital Whole Mount Anencephaly Saggital Whole Mount 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2720_END_INCLUDE_IMAGE_
Aneurysm Wall Movat Pentachrome Aneurysm Wall Movat Pentachrome 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2721_END_INCLUDE_IMAGE_
Anterior Horn 400 Anterior Horn 400 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2722_END_INCLUDE_IMAGE_
Anterior Horn Bodian 400x Anterior Horn Bodian 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2723_END_INCLUDE_IMAGE_
Anterior Horn CV 400x Anterior Horn CV 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2724_END_INCLUDE_IMAGE_
Anterior Horn Cell Nissl 002 Anterior Horn Cell Nissl 002 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2725_END_INCLUDE_IMAGE_
Arachnoid Cyst 100x Arachnoid Cyst 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2726_END_INCLUDE_IMAGE_
Arachnoid Cyst 200x Arachnoid Cyst 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2727_END_INCLUDE_IMAGE_
Arachnoid Cyst 40x Arachnoid Cyst 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2728_END_INCLUDE_IMAGE_
Arachnoid Cyst 400x Arachnoid Cyst 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2729_END_INCLUDE_IMAGE_
Atypical Meningioma Atypical Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2730_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Atypical Teratoid Rhabdoid Tumor 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2731_END_INCLUDE_IMAGE_
Border 40x Border 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2732_END_INCLUDE_IMAGE_
Bacteria Polys Bacteria Polys 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2733_END_INCLUDE_IMAGE_
Betz Cell Nissl 001 Betz Cell Nissl 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2734_END_INCLUDE_IMAGE_
Betz Cell Silver 002 Betz Cell Silver 002 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2735_END_INCLUDE_IMAGE_
Bodian Silver Alzheimer Hippocam Bodian Silver Alzheimer Hippocampus 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2736_END_INCLUDE_IMAGE_
CADASIL 400x CADASIL 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2737_END_INCLUDE_IMAGE_
CD68 TLDL CD68 TLDL 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2738_END_INCLUDE_IMAGE_
CMV 100x CMV 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2739_END_INCLUDE_IMAGE_
CMV x600 CMV x600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2740_END_INCLUDE_IMAGE_
Calpainopathy FS 200x Calpainopathy is a subtype of Limb-Girdle muscular dystropy. Pathologically, it is characterized by degenerating and regenerating muscle fibers, fibrosis between the muscle fibers, and lobulated type 1 muscle fibers. 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2741_END_INCLUDE_IMAGE_
Calpainopathy 200x Calpainopathy 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2742_END_INCLUDE_IMAGE_
Calpainopathy 400x Calpainopathy 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2743_END_INCLUDE_IMAGE_
Calpainopathy 600x Calpainopathy 600x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2744_END_INCLUDE_IMAGE_
Canavan Disease Grey White PAS Canavan Disease Grey White PAS 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2745_END_INCLUDE_IMAGE_
Canavan Molecular Layer PAS Canavan Molecular Layer PAS 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2746_END_INCLUDE_IMAGE_
Candidia PAS 600x Candidia PAS 600x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2747_END_INCLUDE_IMAGE_
Sporadic JCD in cerebellum, immu Sporadic JCD in cerebellum, immune stain 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2748_END_INCLUDE_IMAGE_
Sporadic JCD in cerebellum, immu Sporadic JCD in cerebellum, immune stain, high power 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2749_END_INCLUDE_IMAGE_
Cerebritis Cerebritis 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2750_END_INCLUDE_IMAGE_
Chordoid Meningioma Chordoid Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2751_END_INCLUDE_IMAGE_
Churg-Strauss with Eosinophils Churg-Strauss with Eosinophils 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2752_END_INCLUDE_IMAGE_
Clear Cell Meningioma Clear Cell Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2753_END_INCLUDE_IMAGE_
Corpora Amylacea 400x Corpora amylacea are inclusions found in astrocytes as part of aging. They're the big purple blobs in this image. 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2754_END_INCLUDE_IMAGE_
Cresyl violet immature cerebral Cresyl violet immature cerebral cortex 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2755_END_INCLUDE_IMAGE_
Cresyl Violet Coronal WM 001 Cresyl Violet Coronal WM 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2756_END_INCLUDE_IMAGE_
Cresyl Violet Coronal Whole Moun Cresyl Violet Coronal Whole Mount 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2757_END_INCLUDE_IMAGE_
Cryptococcoma H&E Cryptococcoma H&E 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2758_END_INCLUDE_IMAGE_
DandyWalkerWM001 DandyWalkerWM001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2759_END_INCLUDE_IMAGE_
Embolized Meningioma Embolized Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2760_END_INCLUDE_IMAGE_
GERMINOMA 1 GERMINOMA 1 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2761_END_INCLUDE_IMAGE_
GERMINOMA 2 GERMINOMA 2 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2762_END_INCLUDE_IMAGE_
GERMINOMA 3 GERMINOMA 3 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2763_END_INCLUDE_IMAGE_
Glioneuronal Tumor with Neuropil Glioneuronal Tumor with Neuropil Islands, GFAP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2764_END_INCLUDE_IMAGE_
GSS GSS 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2765_END_INCLUDE_IMAGE_
GSS cerebellum GSS cerebellum 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2766_END_INCLUDE_IMAGE_
Grinkers Myelinopathy crim Grinkers Myelinopathy crim 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2767_END_INCLUDE_IMAGE_
Grinkers Myelinopathy crim HP Grinkers Myelinopathy crim HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2768_END_INCLUDE_IMAGE_
Gumma HP Gumma HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2769_END_INCLUDE_IMAGE_
Gumma LP Gumma LP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2770_END_INCLUDE_IMAGE_
HIV Encephalopathy mp HIV Encephalopathy mp 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2771_END_INCLUDE_IMAGE_
HIV Encephalopathy 400x HIV Encephalopathy 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2772_END_INCLUDE_IMAGE_
HIV Encephalopathy p24 immune st HIV Encephalopathy p24 immune stain 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2773_END_INCLUDE_IMAGE_
HIV Encephalopathy p24 immune st HIV Encephalopathy p24 immune stain 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2774_END_INCLUDE_IMAGE_
Hippocampus Cresyl Violet Corona Hippocampus Cresyl Violet Coronal 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2775_END_INCLUDE_IMAGE_
Illustration of a hippocampal ne Illustration of a hippocampal neuron 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2776_END_INCLUDE_IMAGE_
Hippocampus Cresyl Violet Corona Hippocampus Cresyl Violet Coronal 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2777_END_INCLUDE_IMAGE_
Hirano Body 600x Hirano bodies can be seen in normal aging. They are elongated eosinophilic neuronal inclusions which can jut out of the cell and into the neuropil. 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2778_END_INCLUDE_IMAGE_
Immature Teratoma Anlage HP Immature Teratoma Anlage HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2779_END_INCLUDE_IMAGE_
Immature Teratoma Anlage LP Immature Teratoma Anlage LP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2780_END_INCLUDE_IMAGE_
JCD bx JCD bx 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2781_END_INCLUDE_IMAGE_
KSS Nigra 400 KSS Nigra 400 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2782_END_INCLUDE_IMAGE_
KSS nigra 100 KSS nigra 100 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2783_END_INCLUDE_IMAGE_
KSS nigra 200 KSS nigra 200 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2784_END_INCLUDE_IMAGE_
King Silver Stain AD hippocampus King Silver Stain AD hippocampus 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2785_END_INCLUDE_IMAGE_
Kuru HP Kuru HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2786_END_INCLUDE_IMAGE_
LB 200 LC LB 200 LC 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2787_END_INCLUDE_IMAGE_
LB 400 lc2b LB 400 lc2b 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2788_END_INCLUDE_IMAGE_
LB 600 LC LB 600 LC 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2789_END_INCLUDE_IMAGE_
LB 600 LC2 LB 600 LC2 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2790_END_INCLUDE_IMAGE_
LB 600 SN LB 600 SN 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2791_END_INCLUDE_IMAGE_
LB 600 lc2b LB 600 lc2b 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2792_END_INCLUDE_IMAGE_
LM germinoma LM germinoma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2793_END_INCLUDE_IMAGE_
Lafora Bodies Lafora body disease is a metabolic storage disease. The Lafora bodies are the purple blobs in the neurons. 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2794_END_INCLUDE_IMAGE_
MTX leuko100x MTX leuko100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2795_END_INCLUDE_IMAGE_
MTX leuko HP MTX leuko HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2796_END_INCLUDE_IMAGE_
meningioangiomatosis meningioangiomatosis 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2797_END_INCLUDE_IMAGE_
Meningioma Brain Invasion Meningioma Brain Invasion 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2798_END_INCLUDE_IMAGE_
Meningioma Invading Muscle Meningioma Invading Muscle 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2799_END_INCLUDE_IMAGE_
Metapastic Meningioma Bone Metapastic Meningioma Bone 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2800_END_INCLUDE_IMAGE_
Metaplastic Meningioma Myxoid Metaplastic Meningioma Myxoid 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2801_END_INCLUDE_IMAGE_
Microcystic Meningioma Microcystic Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2802_END_INCLUDE_IMAGE_
Modified Kinyon stain Nocardia Modified Kinyon stain Nocardia 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2803_END_INCLUDE_IMAGE_
NADH-TR target fibers NADH-TR target fibers 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2804_END_INCLUDE_IMAGE_
NADH 400x NADH 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2805_END_INCLUDE_IMAGE_
NMJ EM 3k001 NMJ EM 3k001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2806_END_INCLUDE_IMAGE_
NMJ EM 4k002 NMJ EM 4k002 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2807_END_INCLUDE_IMAGE_
NONADENOMA 400x NONADENOMA 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2808_END_INCLUDE_IMAGE_
NONADENOMA SMEAR 400x NONADENOMA SMEAR 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2809_END_INCLUDE_IMAGE_
Neonatal Candida PAS 200x Neonatal Candida PAS 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2810_END_INCLUDE_IMAGE_
Sporadic JCD in Neostriatum, H&E Sporadic JCD in Neostriatum, H&E 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2811_END_INCLUDE_IMAGE_
Sporadic JCD in Neostriatum, imm Sporadic JCD in Neostriatum, immune stain 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2812_END_INCLUDE_IMAGE_
Nerve Root Lymphoma 200x Nerve Root Lymphoma 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2813_END_INCLUDE_IMAGE_
Nerve Root Lymphoma 40x Nerve Root Lymphoma 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2814_END_INCLUDE_IMAGE_
Neuropil Bodian 400x Neuropil Bodian 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2815_END_INCLUDE_IMAGE_
Neuropil CV 100x Neuropil CV 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2816_END_INCLUDE_IMAGE_
Neuropil 100x Neuropil 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2817_END_INCLUDE_IMAGE_
Nocardia GMS 200x Nocardia GMS 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2818_END_INCLUDE_IMAGE_
Nocardia GMS 600x Nocardia GMS 600x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2819_END_INCLUDE_IMAGE_
Occ Am IHC Occ Am IHC 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2820_END_INCLUDE_IMAGE_
Sporadic JCD in occipital cortex Sporadic JCD in occipital cortex 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2821_END_INCLUDE_IMAGE_
Oil Red O 200x Oil Red O 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2822_END_INCLUDE_IMAGE_
Oligo Calc 40x Oligo Calc 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2823_END_INCLUDE_IMAGE_
Oligo Ca 200x Oligo Ca 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2824_END_INCLUDE_IMAGE_
Oligo Ca 400x Oligo Ca 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2825_END_INCLUDE_IMAGE_
PAS Muscle PAS Muscle 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2826_END_INCLUDE_IMAGE_
PAS candida WM 001 PAS candida WM 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2827_END_INCLUDE_IMAGE_
Pick Bodies, H&E Pick Bodies, H&E 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2828_END_INCLUDE_IMAGE_
Pick Bodies, King Silver Stain Pick Bodies, King Silver Stain 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2829_END_INCLUDE_IMAGE_
Pick Bodies, Tau Stain 400x Locu Pick Bodies, Tau Stain 400x Locus Ceruleus 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2830_END_INCLUDE_IMAGE_
Pick Bodies, Tau Stain Pick Bodies, Tau Stain 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2831_END_INCLUDE_IMAGE_
PML crim PML crim 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2832_END_INCLUDE_IMAGE_
Papillary Meningioma Papillary Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2833_END_INCLUDE_IMAGE_
Pelizaus-Merzbacher Pelizaus-Merzbacher 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2834_END_INCLUDE_IMAGE_
Pelizaus Merzbacher Crimbring Pelizaus Merzbacher Crimbring 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2835_END_INCLUDE_IMAGE_
Pick Bodies Locus Ceruleus 400x Pick Bodies Locus Ceruleus 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2836_END_INCLUDE_IMAGE_
Pilocytic 100 Pilocytic 100 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2837_END_INCLUDE_IMAGE_
Pilocytic 200 Pilocytic 200 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2838_END_INCLUDE_IMAGE_
Pilocytic 600 Pilocytic 600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2839_END_INCLUDE_IMAGE_
Polymicrogyria Coronal Whole Mou Polymicrogyria Coronal Whole Mount 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2840_END_INCLUDE_IMAGE_
Polymyositis CD20 x600 Polymyositis CD20 x600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2841_END_INCLUDE_IMAGE_
Polymyositis CD3 x600 Polymyositis CD3 x600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2842_END_INCLUDE_IMAGE_
Polymyositis CD68 x600 Polymyositis CD68 x600 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2843_END_INCLUDE_IMAGE_
Polymyositis 200x Polymyositis 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2844_END_INCLUDE_IMAGE_
Polymyositis 400x Polymyositis 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2845_END_INCLUDE_IMAGE_
Polymyositis 600x Polymyositis 600x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2846_END_INCLUDE_IMAGE_
Psammomatous Meningioma Psammomatous Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2847_END_INCLUDE_IMAGE_
Purkinje Golgi 001 Purkinje Golgi 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2848_END_INCLUDE_IMAGE_
RETIC NONADENOMA RETIC NONADENOMA 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2849_END_INCLUDE_IMAGE_
Rad Nec 40x Rad Nec 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2850_END_INCLUDE_IMAGE_
Reticulin stain Blood Vessel in Reticulin stain Blood Vessel in CNS Lymphoma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2851_END_INCLUDE_IMAGE_
Rhabdoid Meningioma Rhabdoid Meningioma 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2852_END_INCLUDE_IMAGE_
Sarcomere 001 Sarcomere 001 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2853_END_INCLUDE_IMAGE_
Siderosis Medulla HP Siderosis Medulla HP 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2854_END_INCLUDE_IMAGE_
Sturge Weber leptomeningeal angi An H&E-stained sample of a leptomeningeal angioma from a patient with Sturge-Weber syndrome (SWS). 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2855_END_INCLUDE_IMAGE_
Glioneuronal Tumor with Neuropil Glioneuronal Tumor with Neuropil Islands, synaptophysin immune stain 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2856_END_INCLUDE_IMAGE_
Glioneuronal Tumor with Neuropil Glioneuronal Tumor with Neuropil Islands, synaptophysin immune stain 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2857_END_INCLUDE_IMAGE_
TLDL CORE 240x TLDL CORE 240x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2858_END_INCLUDE_IMAGE_
TLDL FS 100x TLDL FS 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2859_END_INCLUDE_IMAGE_
TLDL FS 200x TLDL FS 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2860_END_INCLUDE_IMAGE_
TLDL GFAP 100x TLDL GFAP 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2861_END_INCLUDE_IMAGE_
TLDL GFAP 200x TLDL GFAP 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2862_END_INCLUDE_IMAGE_
TLDL MULTINUC 200x TLDL MULTINUC 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2863_END_INCLUDE_IMAGE_
TLDL PLEOMORPH 200x TLDL PLEOMORPH 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2864_END_INCLUDE_IMAGE_
TLDL SMI31 100x TLDL SMI31 100x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2865_END_INCLUDE_IMAGE_
TLDL SMI31 200x TLDL SMI31 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2866_END_INCLUDE_IMAGE_
TLDL smear 200x TLDL smear 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2867_END_INCLUDE_IMAGE_
TLDL hp TLDL hp 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2868_END_INCLUDE_IMAGE_
TLDL lp TLDL lp 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2869_END_INCLUDE_IMAGE_
TLDL smear 400x TLDL smear 400x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2870_END_INCLUDE_IMAGE_
TLDL stereotactic 20x TLDL stereotactic 20x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2871_END_INCLUDE_IMAGE_
TLDL 200x TLDL 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2872_END_INCLUDE_IMAGE_
T cell Sural Nerve 40x T cell Sural Nerve 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2873_END_INCLUDE_IMAGE_
Temporal Artery Congo Red Pol 40 Temporal Artery Congo Red Pol 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2874_END_INCLUDE_IMAGE_
Temporal Artery Congo Red 40x Temporal Artery Congo Red 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2875_END_INCLUDE_IMAGE_
Temporal Artery with Amyloid 20x Temporal Artery with Amyloid 20x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2876_END_INCLUDE_IMAGE_
Temporal Artery with Amyloid 40x Temporal Artery with Amyloid 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2877_END_INCLUDE_IMAGE_
Toluidine Blue stain plastic emb Toluidine Blue stain plastic embedded nerve 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2878_END_INCLUDE_IMAGE_
Toluidine blue plastic embedded Toluidine blue plastic embedded peripheral nerve 600x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2879_END_INCLUDE_IMAGE_
Tumefactive Demyelination CD68 I Tumefactive Demyelination CD68 IHC 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2880_END_INCLUDE_IMAGE_
Ven Ang Ven Ang 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2881_END_INCLUDE_IMAGE_
Aneurysm Wall Masson Trichrome Aneurysm Wall Masson Trichrome 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2882_END_INCLUDE_IMAGE_
Illustration of an astrocyte Illustration of an astrocyte 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2883_END_INCLUDE_IMAGE_
Normal Cerebellum Normal Cerebellum 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2884_END_INCLUDE_IMAGE_
Illustration of the Neural Circu Illustration of the Neural Circuitry of the Cerebellum 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2885_END_INCLUDE_IMAGE_
Cryptococcoma mucin stain Cryptococcoma mucin stain 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2886_END_INCLUDE_IMAGE_
Germinoma 200x Germinoma 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2887_END_INCLUDE_IMAGE_
Glioneuronal Tumor with Neuropil Glioneuronal Tumor with Neuropil Islands, 40x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2888_END_INCLUDE_IMAGE_
Glioneuronal Tumor with Neuropil Glioneuronal Tumor with Neuropil Islands, 200x 07/02/2009 @ 18:01 gliageek _INCLUDE_IMAGE_2889_END_INCLUDE_IMAGE_
PAS candida WM 001 with arrow This is a PAS-stained whole mount of a brain with candidiasis. Note the numerous patches of darker stain, indicating loci of fungal infection. One of the many loci is indicated by the unnecessarily large green arrow. 07/02/2009 @ 20:16 jdmiles _INCLUDE_IMAGE_2890_END_INCLUDE_IMAGE_
Rosetted Glioneuronal Tumor IVth The unnecessarily large green arrow points to one of the rosettes formed by the tumor cells in this image. 16/02/2009 @ 6:14 jdmiles _INCLUDE_IMAGE_2891_END_INCLUDE_IMAGE_
Well-demarcated MS Plaque - High The area shaded in green in this image represents the area of demyelination in this gross section of brain. 24/03/2009 @ 15:01 jdmiles _INCLUDE_IMAGE_2892_END_INCLUDE_IMAGE_
Longitudinally extensive transve This is the sagittally-sliced brain of person with transverse myelitis. Although the name suggests a simple horizontal lesion, transverse myelitis often extends rostrally and caudally several spinal segments. In this case, the brainstem is involved. An area of demyelination with liquefaction in the medulla is indicated by the unnecessarily large green arrow. 24/03/2009 @ 15:19 jdmiles _INCLUDE_IMAGE_2893_END_INCLUDE_IMAGE_
Perivent Plaque CD68 IHC - Outli This image shows a sample of brain which has been immunohistochemically stained for CD68. The area which stains brown (the approximate borders of which are outlined in green) represents the plaque. 24/03/2009 @ 15:27 jdmiles _INCLUDE_IMAGE_2894_END_INCLUDE_IMAGE_
Tumefactive demyelination, intra When a brain biopsy is performed, often the pathologist will do what is called a touch preparation or crush preparation: a sample of tissue is smeared onto a glass slide. This process destroys the structure of the tissue, but preserves the cell types. This could be useful, for example in allowing the pathologist to rapidly identify if the surgeon has biopsied the tissue of interest, and what kind of cells are present, before the skull is closed. In this crush preparation, lipid-laden macrophages are present, consistent with an active demyelinating plaque. 25/03/2009 @ 14:46 jdmiles _INCLUDE_IMAGE_2895_END_INCLUDE_IMAGE_
Tumefactive demyelination, low p This is an H&E stained section of brain, with a tumefactive demyelinating lesion. This section captures the border of the lesion. The unnecessarily large green arrows indicate where the plaque is and is not. 25/03/2009 @ 16:34 jdmiles _INCLUDE_IMAGE_2896_END_INCLUDE_IMAGE_
Methotrexate neurotoxicity, H&E Axonal spheroids are a non-specific marker of axonal damage. Proximal to the point where an axon has been damaged, the cell body and proximal axon are still functioning, and axonal transport mechanisms are still trying to move molecules and organelles toward the distal end of the neuron. However, this stuff cannot get transported past the site of the injury. The accumulated material builds up, the axon swells, and when cut in cross-section, looks like the red blob indicated by the unnecessarily large green arrow in the image above. These swellings are called axonal spheroids. 26/03/2009 @ 4:09 jdmiles _INCLUDE_IMAGE_2897_END_INCLUDE_IMAGE_
Methotrexate neurotoxicity, H&E Axonal spheroids are a non-specific marker of axonal damage. Proximal to the point where an axon has been damaged, the cell body and proximal axon are still functioning, and axonal transport mechanisms are still trying to move molecules and organelles toward the distal end of the neuron. However, this stuff cannot get transported past the site of the injury. The accumulated material builds up, the axon swells, and when cut in cross-section, looks like the red blob indicated by the unnecessarily large green arrow in the image above. Retrograde axonal transport also contributes. These swellings are called axonal spheroids. 26/03/2009 @ 8:02 jdmiles _INCLUDE_IMAGE_2898_END_INCLUDE_IMAGE_
Cryptococcoma, mucicarmine stain This is a high-power image of a cryptococcoma (mass in the brain formed by the fungus Cryptococcus neoformans). The tissue is stained using mucicarmine staining, which stains the yeast capsule of Cryptococcus red. The unnecessarily large green arrow points to a red-stained Cryptococcus. 27/03/2009 @ 2:29 jdmiles _INCLUDE_IMAGE_2899_END_INCLUDE_IMAGE_
Multiple sclerosis, transverse s There are several demyelinating plaques in the white matter in this brain. The unnecessarily large green arrows point to three of them. 27/03/2009 @ 2:58 jdmiles _INCLUDE_IMAGE_2900_END_INCLUDE_IMAGE_
Longitudinally extensive transve This is spinal cord from a patient with transverse myelitis. Transverse myelitis often extends rostrally and caudally across several spinal segments, as in this case. The unnecessarily large green arrow points to a small, darker patch of tissue which has been primarily spared from demyelination. The pale-looking areas of this cord, such as that indicated by the unnecessarily large red arrow (i.e., most of the cord in this image), is involved in the demyelinating process. 27/03/2009 @ 3:11 jdmiles _INCLUDE_IMAGE_2901_END_INCLUDE_IMAGE_
Inactive demyelinated plaque, H& This is an H&E preparation of an older, inactive demyelinated plaque from the brain of a person with MS. There is no active demyelination going on in this plaque. In this image, we see the border between the plaque (pale, indicated by the unnecessarily large red arrow) and normal neuropil (darker, indicated by the unnecessarily large green arrow). Note that, while the plaque is pale, indicating a lack of myelin, the overall structure appears very similar to that of the normal neuropil, as axons remain intact. 27/03/2009 @ 3:23 jdmiles _INCLUDE_IMAGE_2902_END_INCLUDE_IMAGE_
Multiple Sclerosis, ventral surf The plaques in this image are indicated by the areas shaded in green. 27/03/2009 @ 3:39 jdmiles _INCLUDE_IMAGE_2903_END_INCLUDE_IMAGE_
Optic Neuritis, H&E stain x400 w At this magnification, lipid-laden macrophages (unnecessarily large green arrow) can be seen in the optic nerve parenchyma adjacent to the perivascular lymphocytic infiltrate 27/03/2009 @ 4:10 jdmiles _INCLUDE_IMAGE_2904_END_INCLUDE_IMAGE_
Optic Neuritis, H&E stain x100 w Perivascular lymphocytic infiltrates (unnecessarily large green arrow) accompanied by diffuse hypercellularity secondary to reactive astrocytosis within the optic nerve 27/03/2009 @ 4:11 jdmiles _INCLUDE_IMAGE_2905_END_INCLUDE_IMAGE_
Optic Neuritis, H&E stain x200 w Perivascular lymphocytic infiltrates accompanied by reactive astrocytosis (unnecessarily large green arrow) and collections of lipid-laden macrophages within the optic nerve parenchyma 27/03/2009 @ 4:13 jdmiles _INCLUDE_IMAGE_2906_END_INCLUDE_IMAGE_
Active demyelinative plaque, per Perivascular lymphocytic infiltrates (unnecessarily large green arrow) accompanied by parenchymal hypercellularity. Demarcation of the plaque borders can be appreciated at the top of the field, but is much better seen on the CD68 stained section, which is the next image in this series. 27/03/2009 @ 4:15 jdmiles _INCLUDE_IMAGE_2907_END_INCLUDE_IMAGE_
Demyelinative plaque, status pos This patient was irradiated secondary to a biopsy diagnosis of glioma resulting in extension and cavitation of the demyelinating lesion 27/03/2009 @ 4:22 jdmiles _INCLUDE_IMAGE_2908_END_INCLUDE_IMAGE_
Acute necrotizing hemorrhagic le Unilateral hemispheric swelling with numerous petechial hemorrhages within white matter (outlined in green) 27/03/2009 @ 7:02 jdmiles _INCLUDE_IMAGE_2909_END_INCLUDE_IMAGE_
Adrenoleukodystrophy, horizontal Note the dark appearance of the posterior white matter, as indicated by the unnecessarily large green arrow. This white matter is demyelinated. In Adrenoleukodystrophy, this demyelination occurs more in the posterior white matter than anteriorly, and does not spare subcortical U fibers. 29/03/2009 @ 19:51 jdmiles _INCLUDE_IMAGE_2910_END_INCLUDE_IMAGE_
Alexander disease, coronal secti This is a slice of brain from a patient who had Alexander disease. In this disease, there is diffuse loss of white matter. In this image, note how dark the demyelinated white matter appears, especially in contrast to the relatively spared region indicated by the unnecessarily large red arrow. Note also that the subcortical U-fibers (outlined in green) are also demyelinated. This finding can be of diagnostic value when trying to differentiate different leukodystrophies. 29/03/2009 @ 19:59 jdmiles _INCLUDE_IMAGE_2911_END_INCLUDE_IMAGE_
Krabbe disease, H&E stained sect Another name for Krabbe disease is globoid cell leukodystrophy. The reason for this is the presence of these very large globoid cells, which are a hallmark of Krabbe disease, and which are easily seen in this H&E-stained preparation of brain from a person with Krabbe disease. The unnecessarily large green arrow points to one of several globoid cells visible in this image. 29/03/2009 @ 20:23 jdmiles _INCLUDE_IMAGE_2912_END_INCLUDE_IMAGE_
Krabbe disease, coronal section, Diffuse white matter loss with sparing of subcortical U-fibers 29/03/2009 @ 20:35 jdmiles _INCLUDE_IMAGE_2913_END_INCLUDE_IMAGE_
Krabbe disease, H&E stain x 100 There are many globoid cells visible in this H&E-stained specimen of brain from a person who had Krabbe disease. Krabbe disease is also called globoid cell leukodystrophy because these cells are a hallmark feature of the disease. The unnecessarily large green arrow points to one of the globoid cells. 29/03/2009 @ 20:47 jdmiles _INCLUDE_IMAGE_2914_END_INCLUDE_IMAGE_
Atypical teratoid/rhabdoid tumor Atypical Rhabdoid/Teratoid Tumors (ATRTs) are a type of embryonal tumors seen in infants and children. They are rare, malignant, and most commonly arise in the posterior fossa, although they can arise elsewhere. The tumor cells have the morphology shown here. Cells have an eccentrically placed nucleus, prominent nucleoli (unnecessarily large green arrow) and abundant cytoplasm which is eosinophilic and granular. Also characteristic are regions of darker, more dense cytoplasm, referred to as inclusion-like bodies (unnecessarily large red arrow). 02/04/2009 @ 2:17 jdmiles _INCLUDE_IMAGE_2915_END_INCLUDE_IMAGE_
Atypical teratoid/rhabdoid tumor Atypical teratoid/rhabdoid tumors are defined by mutations in the INI1 gene. BAF-47 is recognized as the protein product of the INI1 gene, and therefore is diagnostic by its absence within tumor cells (note positive internal control reactivity with non-neoplastic blood vessels - unnecessarily large green arrow). 02/04/2009 @ 2:23 jdmiles _INCLUDE_IMAGE_2916_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Atypical Rhabdoid/Teratoid Tumors (ATRTs) are a type of embryonal tumors seen in infants and children. They are rare, malignant, and most commonly arise in the posterior fossa, although they can arise elsewhere. The tumor cells have the morphology shown here. Cells have an eccentrically placed nucleus, prominent nucleoli (unnecessarily large green arrow) and abundant cytoplasm which is eosinophilic and granular. Also characteristic are regions of darker, more dense cytoplasm, referred to as inclusion-like bodies (unnecessarily large red arrow). 02/04/2009 @ 2:41 jdmiles _INCLUDE_IMAGE_2917_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor This is a gross brain specimen. We are viewing the ventral aspect. Normal cerebellum is visible on your right. The unnecessarily large green arrow on your left points to the Atypical Teratoid/Rhabdoid Tumor (ATRT). Although they may arise elsewhere, ATRTs most frequently arise in the posterior fossa. 02/04/2009 @ 2:48 jdmiles _INCLUDE_IMAGE_2918_END_INCLUDE_IMAGE_
Krabbe disease, ventral surface Discolored, but markedly enlarged olfactory (red outline) and optic (green outline) nerves. Compare to the brain in the thumbnail below. 02/04/2009 @ 3:03 jdmiles _INCLUDE_IMAGE_2919_END_INCLUDE_IMAGE_
Pelizaeus Merzbacher disease, Co This image shows a coronal section through a gross brain specimen from someone who had Pelizaeus Merzbacher disease. There is demyelination of the white matter (blue), with sparing of the subcortical U-fibers (green). This resulting appearance is usually refered to as tigroid, because of the supposed resemblance to tiger stripes. 02/04/2009 @ 3:24 jdmiles _INCLUDE_IMAGE_2920_END_INCLUDE_IMAGE_
For comparison, a tiger. For comparison, this is a photograph of an actual tiger. 02/04/2009 @ 3:39 jdmiles _INCLUDE_IMAGE_2921_END_INCLUDE_IMAGE_
Atypical Teratoid Rhabdoid Tumor Intracytoplasmic inclusion composed of vimentin intermediate filaments 02/04/2009 @ 5:25 gliageek _INCLUDE_IMAGE_2922_END_INCLUDE_IMAGE_
Atypical teratoid/rhabdoid tumor Atypical teratoid/rhabdoid tumors (ATRT) grow rapidly, with a tendency towards necrosis and hemorrhage. Most arise within the cerebellum. 02/04/2009 @ 5:34 jdmiles _INCLUDE_IMAGE_2923_END_INCLUDE_IMAGE_
Lobar pilocytic astrocytoma, H&E This is a low-power view of the pilocytic astrocytoma. The tumor is the region indicated by the unecessarily large green arrow. Compare to the relatively normal-appearing neuropil in the lower left corner. The tumor can be better seen in the higher-power (200x) image in this same series. 04/04/2009 @ 12:10 jdmiles _INCLUDE_IMAGE_2924_END_INCLUDE_IMAGE_
Optic Glioma Gross, Labeled This is a photograph of a resected optic glioma. The globe was also resected, and is seen to the right of the tumor. Most optic tract gliomas are pilocytic astrocytomas. 04/04/2009 @ 12:19 jdmiles _INCLUDE_IMAGE_2925_END_INCLUDE_IMAGE_
Lipoastrocytoma, H&E stain x100, The approximate distribution of fat is highlighted in green. 04/04/2009 @ 12:28 jdmiles _INCLUDE_IMAGE_2926_END_INCLUDE_IMAGE_
GBM - MRI with contrast This is a coronal view of an MRI (T1 with GAD contrast) of a child with a glioblastoma multiforme (GBM). This image is courtesy of Wikimedia Commons, and was created by Wikipedia user `Christaras A.` This file is licensed under Creative Commons Attribution 2.5 License. Link: http://en.wikipedia.org/wiki/File:Glioblastoma_-_MR_coronal_with_contrast.jpg 04/04/2009 @ 13:24 jdmiles _INCLUDE_IMAGE_2927_END_INCLUDE_IMAGE_
GBM - MRI with contrast sagittal This is a sagittal view of an MRI (T1 with GAD contrast) of a child with a glioblastoma multiforme (GBM). This image is courtesy of Wikimedia Commons, and was created by Wikipedia user `Christaras A.` This file is licensed under Creative Commons Attribution 2.5 License. Link: http://en.wikipedia.org/wiki/File:Glioblastoma_-_MR_sagittal_with_contrast.jpg 04/04/2009 @ 13:27 jdmiles _INCLUDE_IMAGE_2928_END_INCLUDE_IMAGE_
GBM - MRI with contrast sagittal The unnecessarily large green arrow points to the tumor. Note the heterogenous uptake of contrast, which is often seen in GBM. 04/04/2009 @ 13:31 jdmiles _INCLUDE_IMAGE_2929_END_INCLUDE_IMAGE_
GBM - MRI with contrast with arr The unnecessarily large green arrow points to the tumor. Note the heterogenous uptake of contrast, which is often seen in GBM. 04/04/2009 @ 13:32 jdmiles _INCLUDE_IMAGE_2930_END_INCLUDE_IMAGE_
Glioblastoma multiforme, intraop The smear preparation is done during surgery, allowing tentative identification of the tumor interoperatively. Individual tumor cells can be seen in this smear. Note the fibrous process and large oval nuclei. 04/04/2009 @ 14:16 jdmiles _INCLUDE_IMAGE_2931_END_INCLUDE_IMAGE_
Glioblastoma multiforme, coronal Note the heterogenous appearance of the tumor. The tumor has grown rapidly, causing mass effect. The unnecessarily large blue arrow shows the resulting shift of the left cingulum across the midline. The degree of mass effect that has occurred is also apparent by the position of the corpus callosum, which is highlighted in green. 04/04/2009 @ 14:40 jdmiles _INCLUDE_IMAGE_2932_END_INCLUDE_IMAGE_
Gliosarcoma , H&E stain x400 wit The unnecessarily large green arrow points to the nucleus of a spindle cell. 04/04/2009 @ 14:59 jdmiles _INCLUDE_IMAGE_2933_END_INCLUDE_IMAGE_
Glioblastoma multiforme, pseudop `Palisading` is when cells line up next to each other, like slats in a picket fence. These rapidly proliferating tumor cells (area outlined in green) appear to palisade around the central pale area, which represents necrotic tissue (region shaded in yellow). Pseudopalisading necrosis is a common feature of glioblastoma multiforme (GBM), which is the tumor shown in this slide. 04/04/2009 @ 16:04 jdmiles _INCLUDE_IMAGE_2934_END_INCLUDE_IMAGE_
Glioblastoma multiforme, small c Glioblastomas composed predominantly of small undifferentiated glial elements must be distinguished from anaplastic oligodendrogliomas. The presence of necrosis with peripheral palisading of tumor cells is very useful in this regard. Small cell glioblastoma is often demonstrate EGFR amplification. One area of pseudopallisading necrosis is indicated by the unnececessarily large green arrow (arrow points to the necrotic center). Can you find the second area of pseudopallisading necrosis in this image? 04/04/2009 @ 16:12 jdmiles _INCLUDE_IMAGE_2935_END_INCLUDE_IMAGE_
Anaplastic astrocytoma infiltrat The area labeled B is the gray matter of the corpus striatum (probably putamen), which is somewhat edematous. The tumor is taking the path of least resistance, in this case via white matter tracts called the pencil bundles of Wilson (A). 04/04/2009 @ 16:18 jdmiles _INCLUDE_IMAGE_2936_END_INCLUDE_IMAGE_
Brain Pie Chart Roughly 20 Percent of all strokes are hemorrhagic (red). The other 80% are ischemic (blue). 04/04/2009 @ 16:24 jdmiles _INCLUDE_IMAGE_2937_END_INCLUDE_IMAGE_
Glioblastoma multiforme involvin This slide shows spread of a glioblastoma to the cerebellum. The diagnosis of GBM is not clearly evident from this slide, but this is from the same patient as the slide showing the necrosis, so the diagnosis is known. The most significant finding in this image is the area highlighted in green: what looks like infant external granular cell layer is actually subpial spread of tumor cells. This person was not an infant. It is also interesting to note that there is a paucity of Purkinje cells in the Purkinje cell layer (unnecessarily large red arrow). 04/04/2009 @ 16:38 jdmiles _INCLUDE_IMAGE_2938_END_INCLUDE_IMAGE_
For comparison, normal adult cer The unnecessarily large green arrow points to a Purkinje cell in the Purkinje cell layer. 04/04/2009 @ 16:49 jdmiles _INCLUDE_IMAGE_2939_END_INCLUDE_IMAGE_
Glioblastoma multiforme with gra Granular differentiation and malignant astrocytic tumors may resemble macrophages on intraoperative smear preparations. Macrophages generally demonstrate more foamy cytoplasm, while granular cells demonstrate coarse eosinophilic granularity such as is seen here. The cytoplasm of a tumor cell is indicated by the unnecessarily large green arrow. 04/04/2009 @ 17:40 jdmiles _INCLUDE_IMAGE_2940_END_INCLUDE_IMAGE_
Glioblastoma multiforme, microva Microvascular proliferation is, along with tumor necrosis, a defining feature of glioblastoma multiforme. 04/04/2009 @ 17:44 jdmiles _INCLUDE_IMAGE_2941_END_INCLUDE_IMAGE_
Monstrocellular Glioblastoma wit Monstrocellular glioblastoma, also called giant cell glioblastoma. The hallmark of this subtype of GBM is the presence of enormous mononucleated and multinucleated tumor cells, as indicated by the unnecessarily large green arrow. Much of the proliferation of this type of tumor occurs with the intervening smaller tumor cells. Like other GBMs, this is a WHO Grade IV tumor. 04/04/2009 @ 17:49 jdmiles _INCLUDE_IMAGE_2942_END_INCLUDE_IMAGE_
Glioblastoma multiforme, spinal This is an immunohistochemical stain. The presence of brown staining is indicative for glial fibrillary acidic protein (GFAP). GFAP is absent wherever there is no brown stain. 04/04/2009 @ 18:22 jdmiles _INCLUDE_IMAGE_2943_END_INCLUDE_IMAGE_
Structure of Skeletal Muscle - S This image illustrates the structural elements of skeletal muscles at different levels. Courtesy of Wikimedia Commons. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. 04/04/2009 @ 20:19 jdmiles _INCLUDE_IMAGE_2944_END_INCLUDE_IMAGE_
NADH - Example of pathological f This is a sample of skeletal muscle stained for NADH. This muscle is denervated. The pale areas in the center of the fibers are targets. The unnecessarily large green arrow points to a target. It may be impossible to distinguish between targets, which are markers of denervation, and cores, which are seen in myopathy. It may also be an unimportant issue, as other features typically suggest neuropathy or myopathy. 04/04/2009 @ 20:36 jdmiles _INCLUDE_IMAGE_2945_END_INCLUDE_IMAGE_
Cytochrome Oxidase staining - Ex The unnecessarily large green arrow points to a pale, cytochrome oxidase negative fiber. This fiber has little or no capacity for oxidative metabolism. 04/04/2009 @ 20:45 jdmiles _INCLUDE_IMAGE_2946_END_INCLUDE_IMAGE_
COX - Example of pathological fi The unncessarily large green arrow points to a central core. 04/04/2009 @ 20:47 jdmiles _INCLUDE_IMAGE_2947_END_INCLUDE_IMAGE_
EM - Example of pathological fin The unnecessarily large green arrow points to parking-lot type paracrystalline inclusions in the mitochondria. 04/04/2009 @ 21:10 jdmiles _INCLUDE_IMAGE_2948_END_INCLUDE_IMAGE_
Frontal Coronal, Labeled This image shows a coronal section of whole, normal brain, through the frontal lobes. The cerebral cortex is labeled in green. The genu of the corpus callosum is outlined in red. The white matter is, well, white. 04/04/2009 @ 21:51 jdmiles _INCLUDE_IMAGE_2949_END_INCLUDE_IMAGE_
Normal Cerebellum, Labeled with This is an H&E stained slice of normal cerebellum, viewed at low power. The following structures are labeled: A) Molecular layer, B) Purkinje cell layer, C) Granule cell layer, D) Meninges. 04/04/2009 @ 22:03 jdmiles _INCLUDE_IMAGE_2950_END_INCLUDE_IMAGE_
Temporal Artery Congo Red, 40x, Two polarizing filters block out most of the light from the microscope light source. However, the light that passes through amyloid becomes visible, and appears this characteristic shade of "apple green." An area of apple-green birefringence is indicated by the unnecessarily large green arrow. 04/04/2009 @ 22:25 jdmiles _INCLUDE_IMAGE_2951_END_INCLUDE_IMAGE_
Vanishing White matter disease, Axonal spheroids are a non-specific marker of axonal damage. Proximal to the point where an axon has been damaged, the cell body and proximal axon are still functioning, and axonal transport mechanisms are still trying to move molecules and organelles toward the distal end of the neuron. However, this stuff cannot get transported past the site of the injury. The accumulated material builds up, the axon swells, and when cut in cross-section, looks like the red blobs circled in green in this image. Retrograde axonal transport also contributes. These swellings are called axonal spheroids. 05/04/2009 @ 12:19 jdmiles _INCLUDE_IMAGE_2952_END_INCLUDE_IMAGE_
Vanishing white matter disease, Axonal spheroids are a non-specific marker of axonal damage, caused by swelling in the axon as material transported along the axon accumulates. Two of these swellings are circled in green in this H&E-stained preparation from a person with vanishing white matter disease (VWMD). Note also how sparsely myelinated and pale the neuropil appears. Compare to the image of normal neuropil, by clicking the thumbnail below. 05/04/2009 @ 12:25 jdmiles _INCLUDE_IMAGE_2953_END_INCLUDE_IMAGE_
Vanishing white matter disease, Note the loss of white matter, indicated by the unnecessarily large green arrow. The cortex, at the top of the image, is relatively spared. 05/04/2009 @ 12:34 jdmiles _INCLUDE_IMAGE_2954_END_INCLUDE_IMAGE_
Vanishing white matter disease The neurons outlined in green are chromatolytic. Chromatolytic neurons are pale and swollen in reaction to axonal injury. Axonal injury may occur in demyelinating disease secondary to the loss of myelin. 05/04/2009 @ 14:24 jdmiles _INCLUDE_IMAGE_2955_END_INCLUDE_IMAGE_
Alexander Disease, H&E stained s All these red blobs, like the one indicated by the unnecessarily large green arrow, are "Rosenthal fibers." Rosenthal fibers are eosinophilic, intracytoplasmic inclusions seen in reactive tissue, neoplasms like pilocytic astrocytoma, and in Alexander disease. Rosenthal fibers are comprised of a combination of compounds, including ubiquitin, some small heat shock proteins, and GFAP or something akin to it. 05/04/2009 @ 14:58 jdmiles _INCLUDE_IMAGE_2956_END_INCLUDE_IMAGE_
Alexander Disease, cerebral cort Abundant Rosenthal fiber formation within both gray and white matter, giving rise to macroencephaly in the early stages of the disease process 05/04/2009 @ 15:04 jdmiles _INCLUDE_IMAGE_2957_END_INCLUDE_IMAGE_
Canavan disease, high powered PA Spongiform degeneration involving superficial layers of cerebral cortex. 05/04/2009 @ 15:13 jdmiles _INCLUDE_IMAGE_2958_END_INCLUDE_IMAGE_
fourth ventricular ependymoma, s In this image, the tumor is circled in green. 08/04/2009 @ 15:22 jdmiles _INCLUDE_IMAGE_2959_END_INCLUDE_IMAGE_
Posterior Fossa Sagittal, Labele A midsagittal section of gross normal brain, showing the posterior fossa structures, labeled in green. 08/04/2009 @ 16:03 jdmiles _INCLUDE_IMAGE_2960_END_INCLUDE_IMAGE_
fourth ventricular ependymoma, s The tumor is circled in green. 08/04/2009 @ 16:09 jdmiles _INCLUDE_IMAGE_2961_END_INCLUDE_IMAGE_
Brainstem Ependymoma, transverse Ependymomas are felt to arise from ventricular lining cells, and thus demonstrate a tendency for intraventricular growth. Note this tumor growing within the 4th ventricle. 08/04/2009 @ 16:29 jdmiles _INCLUDE_IMAGE_2962_END_INCLUDE_IMAGE_
Abductor Pollicis Brevis with ar APB Muscle 10/04/2009 @ 13:47 blondarb _INCLUDE_IMAGE_2963_END_INCLUDE_IMAGE_
APB_Highlited_deleteme The APB 10/04/2009 @ 13:50 blondarb _INCLUDE_IMAGE_2964_END_INCLUDE_IMAGE_
Hand, Palmar Image of the palmar aspect of the hand. 10/04/2009 @ 15:47 jdmiles _INCLUDE_IMAGE_2965_END_INCLUDE_IMAGE_
Insertion point for EMG study of The unnecessarily large green arrow indicates the appropriate needle placement for an EMG study of the abductor pollicis brevis muscle. 10/04/2009 @ 15:59 jdmiles _INCLUDE_IMAGE_2966_END_INCLUDE_IMAGE_
Dorsolateral Medullary Infarct, This is a cross-section through the rostral medulla from a person who had a dorsolateral medullary infarction. The infarct is the area shaded in green. 11/04/2009 @ 12:08 jdmiles _INCLUDE_IMAGE_2967_END_INCLUDE_IMAGE_
Wallenberg Syndrome MRI Diffusion-weighted MRI of an infart in the left dorsolateral medulla, consistent with a clinical picture of Wallenberg syndrome. Courtesy of Wikimedia. Image created by John S. To, M.D. This image is in the public domain. 11/04/2009 @ 12:11 jdmiles _INCLUDE_IMAGE_2968_END_INCLUDE_IMAGE_
Dorsolateral Medullary Infarct, This is a cross-section through the rostral medulla of a person who had a stroke in the dorsolateral medulla. Basic anatomic landmarks are labeled in this image. 11/04/2009 @ 13:15 jdmiles _INCLUDE_IMAGE_2969_END_INCLUDE_IMAGE_
Wallenberg Syndrome MRI with arr Diffusion-weighted MRI of an infart in the left dorsolateral medulla, consistent with a clinical picture of Wallenberg syndrome. The infarct in this image would be in approximately the same location as the one shown in the pathology image. In the MRI, dorsal is toward the bottom of the image, whereas in the pathology image, dorsal is toward the top. Also, in MRI imaging, anatomic left is on the right of the image, whereas in photographs of pathology specimens, it is customary for anatomic left to be on the left. The unnecessarily large green arrow points to the area of diffusion restriction (bright area), which in this case indicates an infarct. 11/04/2009 @ 13:20 jdmiles _INCLUDE_IMAGE_2970_END_INCLUDE_IMAGE_
First Dorsal Interosseous Needle A demonstration of the needle placement for an EMG of the first dorsal interosseous muscle. 12/04/2009 @ 17:19 jdmiles _INCLUDE_IMAGE_2971_END_INCLUDE_IMAGE_
First Dorsal Interosseous in Act The first dorsal interosseous muscle abducts the 2nd finger. 12/04/2009 @ 17:31 jdmiles _INCLUDE_IMAGE_2972_END_INCLUDE_IMAGE_
First Dorsal Interosseous Surfac This image shows the surface anatomy relevant to the first dorsal interosseous muscle. 12/04/2009 @ 17:36 jdmiles _INCLUDE_IMAGE_2973_END_INCLUDE_IMAGE_
Abductor Digiti Minimi Surface V This is a photograph of the medial aspect of the hand, showing the surface anatomy relevant to the abductor digiti minimi muscle. 12/04/2009 @ 17:59 jdmiles _INCLUDE_IMAGE_2974_END_INCLUDE_IMAGE_
Abductor Digiti Minimi Surface V The unnecessarily large green arrow indicates the location of EMG needle insertion site for the abductor digiti minimi muscle. 12/04/2009 @ 18:11 jdmiles _INCLUDE_IMAGE_2975_END_INCLUDE_IMAGE_
First Dorsal Interosseous in Act The unnecessarily large green arrow indicates the EMG needle insertion point for the first dorsal interosseous (FDI) muscle. 12/04/2009 @ 18:17 jdmiles _INCLUDE_IMAGE_2976_END_INCLUDE_IMAGE_
First Dorsal Interosseous Surfac The unnecessarily large green arrow points to the first dorsal interosseous (FDI) muscle. 12/04/2009 @ 18:19 jdmiles _INCLUDE_IMAGE_2977_END_INCLUDE_IMAGE_
Abductor Digiti Minimi - Highlig In this image of the palmar surface of a left hand, the abductor digiti minimi muscle is highlighted in red. 12/04/2009 @ 18:29 jdmiles _INCLUDE_IMAGE_2978_END_INCLUDE_IMAGE_
Triceps with arrow The unnecessarily large green arrow points to the triceps brachii muscle. 12/04/2009 @ 19:33 jdmiles _INCLUDE_IMAGE_2979_END_INCLUDE_IMAGE_
Abductor Pollicis Brevis (A This illustration of a left hand, from Gray`s Anatomy, shows the abductor pollicis brevis muscle highlighted in red. Image courtesy of Wikimedia Commons. This image is in the public domain. 12/04/2009 @ 19:43 jdmiles _INCLUDE_IMAGE_2980_END_INCLUDE_IMAGE_
First Dorsal Interosseous Muscle This illustration of the palmar aspect of the left hand, from Gray`s anatomy, shows the first dorsal interosseous muscle highlighted in green. 12/04/2009 @ 19:54 jdmiles _INCLUDE_IMAGE_2981_END_INCLUDE_IMAGE_
Flexor Carpi Radialis with arrow The unnecessarily large green arrow points to the belly of the flexor carpi radialis (FCR) muscle. 12/04/2009 @ 19:58 jdmiles _INCLUDE_IMAGE_2982_END_INCLUDE_IMAGE_
Biceps Brachii with arrow The unnecessarily large green arrow points to the biceps brachii muscle. 12/04/2009 @ 20:06 jdmiles _INCLUDE_IMAGE_2983_END_INCLUDE_IMAGE_
Flexor Carpi Radialis highlighte This image shows the muscles of the forearm with the flexor carpi radialis highlighted. 13/04/2009 @ 12:03 blondarb _INCLUDE_IMAGE_2984_END_INCLUDE_IMAGE_
Flexor Carpi Radialis highlighte This image shows the muscles of the forearm with the flexor carpi radialis highlighted. 13/04/2009 @ 12:04 blondarb _INCLUDE_IMAGE_2985_END_INCLUDE_IMAGE_
Flexor Digitorum Superficialis w The arrow highlights the flexor digitorum superficialis. 13/04/2009 @ 12:28 blondarb _INCLUDE_IMAGE_2986_END_INCLUDE_IMAGE_
Opponens pollicis highlighted The arrow points to the opponens pollicis muscle. 13/04/2009 @ 12:51 blondarb _INCLUDE_IMAGE_2987_END_INCLUDE_IMAGE_
Posterior cerebral artery infarc This image shows the medial surface of the left cerebral hemisphere from a person who has suffered an infarct in the left Posterior Cerebral Artery (PCA) distribution. From the accumulation of bilirubin in the infarcted tissue, the infarct appears dark on the unlabeled image, and in the labeled image is circled in red. 14/04/2009 @ 20:18 jdmiles _INCLUDE_IMAGE_2988_END_INCLUDE_IMAGE_
MRI DWI - Acute Left PCA Infarct This is a diffusion-weighted MRI image showing an acute infarction in the left PCA territory. Note the involvement of the thalamus. 14/04/2009 @ 20:28 jdmiles _INCLUDE_IMAGE_2989_END_INCLUDE_IMAGE_
Cavitated MCA infarct, lateral s This image shows the lateral surface of the left hemisphere of a person who has suffered a stroke. The cavitating lesion in the parietal lobe is highlighted in green. 15/04/2009 @ 2:58 jdmiles _INCLUDE_IMAGE_2990_END_INCLUDE_IMAGE_
Recent middle cerebral artery in This is a coronal slice of gross brain, through the left cerebral hemisphere. The anterior horn of the lateral ventricle is visible in this section. This person has suffered an ischemic stroke in the MCA territory, with resulting edema (highlighted in green) and hemorrhage (highlighted in red). 15/04/2009 @ 3:12 jdmiles _INCLUDE_IMAGE_2991_END_INCLUDE_IMAGE_
Recent middle cerebral artery in The following structures are labeled in this coronal section through the left frontal lobe of a person who has suffered a recent MCA infarct: 1) 3rd Ventricle, 2) Genu of corpus callosum, 3) Cingulate gyrus, 4) Corona radiata, 5) Superior frontal gyrus, 6) Middle frontal gyrus, 7) Inferior frontal gyrus. 15/04/2009 @ 3:27 jdmiles _INCLUDE_IMAGE_2992_END_INCLUDE_IMAGE_
Viral Encephalitis - MRI with ar This is a T2-weighted MRI image from a person with viral encephalitis. The unnecessarily large green arrow points to the area of hyperintensity in the anterior right temporal lobe. 16/04/2009 @ 20:09 jdmiles _INCLUDE_IMAGE_2993_END_INCLUDE_IMAGE_
Anconeus highlighted The Anconeus muscle is highlighted red. 17/04/2009 @ 13:30 blondarb _INCLUDE_IMAGE_2994_END_INCLUDE_IMAGE_
highlighted_brachioradialis This is the anterior muscles of the forearm with the brachioradialis highlighted. 17/04/2009 @ 13:38 blondarb _INCLUDE_IMAGE_2995_END_INCLUDE_IMAGE_
Flexor Digitorum Sublimis, Highl This image from Gray's anatomy shows the muscles of the anterior forearm, with the flexor digitorum sublimis highlighted in green. 18/04/2009 @ 5:02 jdmiles _INCLUDE_IMAGE_2996_END_INCLUDE_IMAGE_
Vitruvian RUE Dorsal Antebrachia The Vitruvian Man with the sensory distribution of the right dorsal antebrachial cutaneous nerve highlighted in red. 18/04/2009 @ 8:33 jdmiles _INCLUDE_IMAGE_2997_END_INCLUDE_IMAGE_
Vitruvian RUE Median The Vitruvian Man with the sensory distribution of the right median nerve highlighted in red. 18/04/2009 @ 8:38 jdmiles _INCLUDE_IMAGE_2998_END_INCLUDE_IMAGE_
Vitruvian RUE Intercostobrachial The Vitruvian Man with the sensory distribution of the right intercostobrachial nerve highlighted in red. 18/04/2009 @ 8:38 jdmiles _INCLUDE_IMAGE_2999_END_INCLUDE_IMAGE_
Vitruvian RUE Lateral Antebrachi The Vitruvian Man with the sensory distribution of the right lateral antebrachial cutaneous nerve highlighted in red. 18/04/2009 @ 8:39 jdmiles _INCLUDE_IMAGE_3000_END_INCLUDE_IMAGE_
Vitruvian RUE Medial Antebrachia The Vitruvian Man with the sensory distribution of the right medial antebrachial cutaneous nerve highlighted in red. 18/04/2009 @ 8:40 jdmiles _INCLUDE_IMAGE_3001_END_INCLUDE_IMAGE_
Vitruvian RUE Radial The Vitruvian Man with the sensory distribution of the right radial nerve highlighted in red. 18/04/2009 @ 8:40 jdmiles _INCLUDE_IMAGE_3002_END_INCLUDE_IMAGE_
Vitruvian RUE Ulnar The Vitruvian Man with the sensory distribution of the right ulnar nerve highlighted in red. 18/04/2009 @ 8:41 jdmiles _INCLUDE_IMAGE_3003_END_INCLUDE_IMAGE_
Median Sensory Study to Index This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 6:38 blondarb _INCLUDE_IMAGE_3004_END_INCLUDE_IMAGE_
Median Sensory Nerve – Ring Fing This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:13 blondarb _INCLUDE_IMAGE_3005_END_INCLUDE_IMAGE_
Median Sensory Nerve - middle &# This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:15 blondarb _INCLUDE_IMAGE_3006_END_INCLUDE_IMAGE_
Median Sensory Nerve – thumb � This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:16 blondarb _INCLUDE_IMAGE_3007_END_INCLUDE_IMAGE_
Ulnar Sensory Nerve (antidr This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:17 blondarb _INCLUDE_IMAGE_3008_END_INCLUDE_IMAGE_
Radial Sensory Nerve (antid This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:18 blondarb _INCLUDE_IMAGE_3009_END_INCLUDE_IMAGE_
Ulnar Sensory Nerve – Ring Finge This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:22 blondarb _INCLUDE_IMAGE_3010_END_INCLUDE_IMAGE_
Median Palmar Mixed Nerve ( This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:26 blondarb _INCLUDE_IMAGE_3011_END_INCLUDE_IMAGE_
Ulnar Palmar Mixed Nerve (o This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:30 blondarb _INCLUDE_IMAGE_3012_END_INCLUDE_IMAGE_
Lateral Antebrachial Cutaneous S This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:34 blondarb _INCLUDE_IMAGE_3013_END_INCLUDE_IMAGE_
Medial Antebrachial Cutaneous Se This cartoon shows the placement for the recording and stimulating electrodes for this study. 20/04/2009 @ 7:36 blondarb _INCLUDE_IMAGE_3014_END_INCLUDE_IMAGE_
Type 1 prion cerebellar IHC This is an IHC-stained image of cerebellum from a patient with a prion disease. 20/04/2009 @ 13:48 jdmiles _INCLUDE_IMAGE_3015_END_INCLUDE_IMAGE_
Type 2 prion cerebellar IHC This is an IHC-stained section of cerebellum from a patient with a prion disease. 20/04/2009 @ 13:48 jdmiles _INCLUDE_IMAGE_3016_END_INCLUDE_IMAGE_
Type 1 prion cerebellar IHC This is a section of cerebellum from a patient with a prion disease. 20/04/2009 @ 13:49 jdmiles _INCLUDE_IMAGE_3017_END_INCLUDE_IMAGE_
Type 2 prion cerebellar IHC This is a section of cerebellum from a person with a prion disease. 20/04/2009 @ 13:51 jdmiles _INCLUDE_IMAGE_3018_END_INCLUDE_IMAGE_
Type 1 prion hippocampus IHC This is a section of hippocampus from a person with a prion disease. 20/04/2009 @ 13:52 jdmiles _INCLUDE_IMAGE_3019_END_INCLUDE_IMAGE_
Type 2 prion hippocampus IHC This is a section of hippocampus from a patient with a prion disease. 20/04/2009 @ 13:58 jdmiles _INCLUDE_IMAGE_3020_END_INCLUDE_IMAGE_
Type 1 prion hippocampus H&E This is a section of hippocampus from a patient with a prion disease. 20/04/2009 @ 14:00 jdmiles _INCLUDE_IMAGE_3021_END_INCLUDE_IMAGE_
Type 2 prion hippocampus H&E This is a section of hippocampus from a patient with a prion disease. 20/04/2009 @ 14:01 jdmiles _INCLUDE_IMAGE_3022_END_INCLUDE_IMAGE_
Type 1 prion hippocampus IHC This is a section of hippocampus from a patient with a prion disease. 20/04/2009 @ 14:02 jdmiles _INCLUDE_IMAGE_3023_END_INCLUDE_IMAGE_
Extensor carpi radialis longus h This image shows the extensor carpi radialis longus in purple. 20/04/2009 @ 18:09 blondarb _INCLUDE_IMAGE_3024_END_INCLUDE_IMAGE_
Oligodendrocyte A mouse oligodendrocyte, transfected with GFP (Green Fluorescent Protein) and photographed using a 63x objective. Image courtesy of Wikimedia Commons, created by Jurjen Broeke, and released by him into the public domain. Thanks, Jurjen! 24/04/2009 @ 2:55 jdmiles _INCLUDE_IMAGE_3025_END_INCLUDE_IMAGE_
Oligodendrocyte with arrow Oligodendrocytes are the glial cells which form the myelin sheath around axons of neurons within the central nervous system. In the peripheral nervous system, this function is performed by Schwann cells. Oligodendrocytes have many processes (unecessarily large green arrow), each of which extends to an axon and wraps around it several times, forming the myelin sheath. Each oligodendrocyte myelinates a short span of many different axons. Oligodendrocytes are damaged in demyelinating disease. 24/04/2009 @ 3:13 jdmiles _INCLUDE_IMAGE_3026_END_INCLUDE_IMAGE_
Thoracic Spinal Cord Cross-Secti This is an illustration of a cross-section of the thoracic spinal cord. The white matter tracts are highlighted in green. These are tracts of myelinated axons. In demyelinating diseases of the central nervous system, these are the parts of the cord which are affected. 24/04/2009 @ 19:41 jdmiles _INCLUDE_IMAGE_3027_END_INCLUDE_IMAGE_
Central Pontine Myelinolysis, tr The unnecessarily large green arrow points to the region of myelinolysis and cavitation in the pons. 24/04/2009 @ 19:53 jdmiles _INCLUDE_IMAGE_3028_END_INCLUDE_IMAGE_
Tumefactive demyelination, H&E s The unnecessarily large green arrow points to one of the binucleated cells visible in this image. 24/04/2009 @ 19:55 jdmiles _INCLUDE_IMAGE_3029_END_INCLUDE_IMAGE_
Flexor Carpi Ulnaris highlighted This image shows the posterior and anterior surface of the forearm with the Flexor Carpi Ulnaris highlighted purple 27/04/2009 @ 7:42 blondarb _INCLUDE_IMAGE_3030_END_INCLUDE_IMAGE_
Flexor digitorum profundus highl This image shows the Flexor Digitorum Profundus highlighted. 27/04/2009 @ 7:55 blondarb _INCLUDE_IMAGE_3031_END_INCLUDE_IMAGE_
Flexor Pollicis Brevis with arro This image shows an arrow pointing at the Flexor Pollicis Brevis. 27/04/2009 @ 8:17 blondarb _INCLUDE_IMAGE_3032_END_INCLUDE_IMAGE_
pronator quadratus highlighted This image shows the deep muscles of the anterior forearm, with the pronator quadratus highlighted. 27/04/2009 @ 8:36 blondarb _INCLUDE_IMAGE_3033_END_INCLUDE_IMAGE_
Supinator with arrow The arrow shows the location of the supinator muscle. 27/04/2009 @ 10:27 blondarb _INCLUDE_IMAGE_3034_END_INCLUDE_IMAGE_
Supinator with arrow The arrow shows the location of the supinator muscle. 27/04/2009 @ 10:27 blondarb _INCLUDE_IMAGE_3035_END_INCLUDE_IMAGE_
Median Motor Study - Recording t This cartoon shows the Median Motor Study - Recording the Abductor Pollicis Brevis 27/04/2009 @ 18:01 blondarb _INCLUDE_IMAGE_3036_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This cartoon shows a technique for studying the Ulnar Motor Nerve - Recording the Abductor Digiti Minimi (ADM) 27/04/2009 @ 18:05 blondarb _INCLUDE_IMAGE_3037_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This cartoon shows the technique for studying the Ulnar Motor Nerve - Recording the First Dorsal Interosseous (FDI) 27/04/2009 @ 18:10 blondarb _INCLUDE_IMAGE_3038_END_INCLUDE_IMAGE_
Median and Ulnar motor nerves- R This cartoon shows the technique for studying the Median and Ulnar motor nerves- Recording the 2nd Lumbrical and interossei. 27/04/2009 @ 18:17 blondarb _INCLUDE_IMAGE_3039_END_INCLUDE_IMAGE_
Radial Motor Nerve - Recording t This cartoon shows the technique for studying the Radial Motor Nerve - Recording the Extenor Digitorum Communis (EDC). 27/04/2009 @ 18:27 blondarb _INCLUDE_IMAGE_3040_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve - r This cartoon shows the technique for studying the Musculocutaneous Motor Nerve - recording the Biceps. 27/04/2009 @ 18:30 blondarb _INCLUDE_IMAGE_3041_END_INCLUDE_IMAGE_
Axillary Motor Nerve - recording This cartoon shows the technique for studying the Axillary Motor Nerve - recording the Deltoid. 27/04/2009 @ 18:33 blondarb _INCLUDE_IMAGE_3042_END_INCLUDE_IMAGE_
Spinal Accessory Motor Nerve - r This cartoon shows the technique for studying the Spinal Accessory Motor Nerve - recording the Trapezius. 27/04/2009 @ 18:35 blondarb _INCLUDE_IMAGE_3043_END_INCLUDE_IMAGE_
Sural Sensory Nerve - recording This cartoon shows a technique to record the Sural Sensory Nerve - recording the Lateral Malleolus (antidromic) 29/04/2009 @ 6:41 blondarb _INCLUDE_IMAGE_3044_END_INCLUDE_IMAGE_
Superficial Peroneal Sensory Ner This cartoon shows the technique for studying the Superficial Peroneal Sensory Nerve - recording anterior to the Lateral Malleolus (antidromic). 29/04/2009 @ 6:46 blondarb _INCLUDE_IMAGE_3045_END_INCLUDE_IMAGE_
Saphenous Sensory Nerve – record This cartoon shows the technique for studying the Saphenous Sensory Nerve – recording anterior to the Medial Malleolus (antidromic) 29/04/2009 @ 6:49 blondarb _INCLUDE_IMAGE_3046_END_INCLUDE_IMAGE_
Lateral Femoral Cutaneous Sensor This cartoon shows the technique for studying the Lateral Femoral Cutaneous Sensory Nerve – recording the lateral thigh (antidromic). 29/04/2009 @ 6:53 blondarb _INCLUDE_IMAGE_3047_END_INCLUDE_IMAGE_
Medial and Lateral Plantar Mixed This cartoon shows the technique for studying the Medial and Lateral Plantar Mixed Nerves (orthodromic) 29/04/2009 @ 6:56 blondarb _INCLUDE_IMAGE_3048_END_INCLUDE_IMAGE_
Peroneal Motor Nerve - recording This cartoon shows the technique for studying the Peroneal Motor Nerve - recording the Extensor Digitorum Brevis. 29/04/2009 @ 6:59 blondarb _INCLUDE_IMAGE_3049_END_INCLUDE_IMAGE_
Peroneal Motor Nerve - recording This cartoon shows the technique for studying the Peroneal Motor Nerve - recording the Tibialis Anterior. 29/04/2009 @ 7:04 blondarb _INCLUDE_IMAGE_3050_END_INCLUDE_IMAGE_
Tibial Motor Nerve - recording t This cartoon shows the technique for studying the Tibial Motor Nerve - recording the Abductor Hallucis. 29/04/2009 @ 7:06 blondarb _INCLUDE_IMAGE_3051_END_INCLUDE_IMAGE_
Tibial Motor Nerve - recording t This cartoon shows the technique for studying the Tibial Motor Nerve - recording the Abductor Digiti Quinti Pedis. 29/04/2009 @ 7:09 blondarb _INCLUDE_IMAGE_3052_END_INCLUDE_IMAGE_
Femoral Motor Nerve - recording This cartoon shows the technique for studying the Femoral Motor Nerve - recording the Rectus Femoris. 29/04/2009 @ 7:34 blondarb _INCLUDE_IMAGE_3053_END_INCLUDE_IMAGE_
H-Reflex - recording the Soleus This cartoon shows the technique for studying the H-Reflex - recording the Soleus 29/04/2009 @ 7:37 blondarb _INCLUDE_IMAGE_3054_END_INCLUDE_IMAGE_
Facial Motor Nerve – recording t This cartoon shows the technique for studying the Facial Motor Nerve – Orbicularis Oculi. 29/04/2009 @ 7:44 blondarb _INCLUDE_IMAGE_3055_END_INCLUDE_IMAGE_
Blink Reflexes – recording the O This cartoon shows the technique for studying the Blink Reflexes – recording the Orbicularis Oculi. 29/04/2009 @ 7:46 blondarb _INCLUDE_IMAGE_3056_END_INCLUDE_IMAGE_
Facial Nerve Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist. http://creativecommons.org/licenses/by/2.5/ 02/05/2009 @ 19:31 blondarb _INCLUDE_IMAGE_3057_END_INCLUDE_IMAGE_
MSA Hot Cross Bun sign The hot cross bun sign is seen in the pons on T2-weighted or FLAIR imaging in patients with MSA-c. It occurs because myelinated transverse pontocerebellar fibers and neurons in the pontine raphe are selectively lost in this disease, while the corticospinal tracts and tegmentum are preserved. As shown in this T2 MRI, it looks like a big white plus sign in the pons. 30/05/2009 @ 5:00 jdmiles _INCLUDE_IMAGE_3058_END_INCLUDE_IMAGE_
MSA Hot Cross Bun sign 2 The hot cross bun sign is seen in the pons on T2-weighted or FLAIR imaging in patients with MSA-c. It occurs because myelinated transverse pontocerebellar fibers and neurons in the pontine raphe are selectively lost in this disease, while the corticospinal tracts and tegmentum are preserved. As shown in this T2 MRI, it looks like a big white plus sign in the pons. 30/05/2009 @ 5:01 jdmiles _INCLUDE_IMAGE_3059_END_INCLUDE_IMAGE_
MSA Hot Cross Bun sign 2 with ar The unnecessarily large green arrow points to the center of the white cross. 30/05/2009 @ 5:03 jdmiles _INCLUDE_IMAGE_3060_END_INCLUDE_IMAGE_
MSA Hot Cross Bun sign with arro The unnecessarily large green arrow points to the middle of the white the cross in the pons in this T2 MRI image of a patient with MSA. 30/05/2009 @ 5:05 jdmiles _INCLUDE_IMAGE_3061_END_INCLUDE_IMAGE_
This cartoon shows the infraspin This image shows the infraspinatous muscles highlighted. 01/06/2009 @ 8:44 blondarb _INCLUDE_IMAGE_3062_END_INCLUDE_IMAGE_
Supraspinatous nerve with arrow The arrow highlights the supraspinatous nerve passing through the spinoglenoid notch. 01/06/2009 @ 8:49 blondarb _INCLUDE_IMAGE_3063_END_INCLUDE_IMAGE_
Latissimis dorsi highlighted This image shows the latissimus dorsi highlighted in red. 01/06/2009 @ 9:01 blondarb _INCLUDE_IMAGE_3064_END_INCLUDE_IMAGE_
Rhomboids highlighted. This image shows the muscles connecting the upper extremity to the vertebral column, the rhomboids are highlighted in red. 01/06/2009 @ 13:14 blondarb _INCLUDE_IMAGE_3065_END_INCLUDE_IMAGE_
Anaplastic ependymoma, microvasc As with the other infiltrating gliomas, microvascular proliferation within ependymal tumors usually signifies anaplastic transformation. 18/06/2009 @ 12:08 gliageek _INCLUDE_IMAGE_3066_END_INCLUDE_IMAGE_
Anaplastic ependymoma, H&E x 400 In non-astrocytic gliomas, the presence of a brisk mitotic rate is the most important histopathologic variable defining anaplastic transformation. 18/06/2009 @ 12:10 gliageek _INCLUDE_IMAGE_3067_END_INCLUDE_IMAGE_
Amyloid beta related angiitis, H Granulomatous angiitis associated with amyloid angiopathy comprises a distinct entity referred to as amyloid beta related angiitis (ABRA) 18/06/2009 @ 12:13 gliageek _INCLUDE_IMAGE_3068_END_INCLUDE_IMAGE_
Amyloid beta related angiitis, Amyloid beta related angiitis is typically encountered in an older population of patients compared with non-amyloid associated primary central nervous system angiitis. 18/06/2009 @ 12:15 gliageek _INCLUDE_IMAGE_3069_END_INCLUDE_IMAGE_
Anaplastic giant cell ependymoma Anaplastic giant cell ependymoma is a rare ependymal tumor often confused with glioblastoma multiforme 18/06/2009 @ 12:17 gliageek _INCLUDE_IMAGE_3070_END_INCLUDE_IMAGE_
Astroblastomatous rosettes, H&E Astroblastomatous rosettes may occur in glioblastoma multiforme. Compared with the very fine fibrillary ependymal pseudo-rosettes, astroblastomatous rosettes demonstrate much coarser terminations along the central blood vessels. 18/06/2009 @ 12:19 gliageek _INCLUDE_IMAGE_3071_END_INCLUDE_IMAGE_
Angiocentric glioma, vimentin im Angiocentric tumor localization within the cerebral cortex is most easily demonstrated with vimentin immunohistochemical staining. 18/06/2009 @ 12:24 gliageek _INCLUDE_IMAGE_3072_END_INCLUDE_IMAGE_
Homer Wright rosettes, synaptoph Strong synaptophysin immunoreactivity within Homer Wright rosettes indicates the presence of neuroblastic differentiation 18/06/2009 @ 12:29 gliageek _INCLUDE_IMAGE_3073_END_INCLUDE_IMAGE_
Microcystic meningioma with adhe Microcystic meningiomas are nearly always grade 1 tumors, and therefore do not show invasion into brain parenchymal tissue 18/06/2009 @ 12:34 gliageek _INCLUDE_IMAGE_3074_END_INCLUDE_IMAGE_
Meningeal hemangiopericytoma Characterized by dense hypercellularity, dilated vasculature, and a tendency towards leptomeningeal and extramural dissemination; the hemangiopericytoma is no longer considered a meningioma subtype, but instead is felt to represent an aggressive an aggressive mesenchymal tumor involving the meninges. 18/06/2009 @ 12:37 gliageek _INCLUDE_IMAGE_3075_END_INCLUDE_IMAGE_
Pilocytic astrocytoma, intraoper Intraoperative smear preparation demonstrates hair-like astrocytes and occasional Rosenthal fibers. 19/06/2009 @ 11:53 gliageek _INCLUDE_IMAGE_3076_END_INCLUDE_IMAGE_
Pilomyxoid astrocytoma, H&E stai The pilomyxoid astrocytoma arises name from the hairlike astrocytes floating within a myxoid stroma. 19/06/2009 @ 11:55 gliageek _INCLUDE_IMAGE_3077_END_INCLUDE_IMAGE_
Pilomyxoid astrocytoma, H&E stai Perivascular pseudo-rosettes with an appearance intermediate between that of astroblastomatous and ependymal type pseudo-rosettes are characteristically seen within pilomyxoid astrocytomas. 19/06/2009 @ 11:58 gliageek _INCLUDE_IMAGE_3078_END_INCLUDE_IMAGE_
Rosetted glial neuronal tumor of Rosettes comprised of epithelioid vacuolated cells surrounding proteinaceous extracellular material, all contained within a delicate fibrillary matrix. 19/06/2009 @ 12:03 gliageek _INCLUDE_IMAGE_3079_END_INCLUDE_IMAGE_
Rosetted glioneuronal tumor of t At low power, the tumor presents a variegated appearance with areas of microcystic and fibrillary differentiation 19/06/2009 @ 12:05 gliageek _INCLUDE_IMAGE_3080_END_INCLUDE_IMAGE_
Meningioma, H&E stain x 200 In this photomicrographs, the tumor cells can be seen recapitulating their lepidic function, wrapping around both blood vessels as well as other tumor cells (forming whorls). 19/06/2009 @ 12:08 gliageek _INCLUDE_IMAGE_3081_END_INCLUDE_IMAGE_
Basal ganglia germinoma, low pow Although typically encountered within the pineal region or suprasellar area, germ cell tumors may occur in other midline location such as bilaterally within the basal ganglia 19/06/2009 @ 12:12 gliageek _INCLUDE_IMAGE_3082_END_INCLUDE_IMAGE_
Papillary tumor of the pineal re Morphologically immunohistochemically, and biologically, the papillary tumor of the pineal region demonstrates differentiation intermediate between that of an ependymoma and a choroid plexus papilloma. 19/06/2009 @ 12:15 gliageek _INCLUDE_IMAGE_3083_END_INCLUDE_IMAGE_
Choroid plexus papilloma, H&E st As the name implies, the choroid plexus papilloma combines the features of a papilloma with glandular differentiation resulting in a papillary-type adenoma. 19/06/2009 @ 12:18 gliageek _INCLUDE_IMAGE_3084_END_INCLUDE_IMAGE_
Non-neoplastic choroid plexus, H Compared with choroid plexus papilloma, normal choroid plexus demonstrates lower nucleus to cytoplasmic ratio, less hyperchromatic nuclei, and more irregular, hobnail type pattern to the luminal surface. 19/06/2009 @ 12:20 gliageek _INCLUDE_IMAGE_3085_END_INCLUDE_IMAGE_
Chordoma (clivus), H&E Nodules of tumor separated by tumor filled septae 19/06/2009 @ 12:22 gliageek _INCLUDE_IMAGE_3086_END_INCLUDE_IMAGE_
Clival chordoma, H&E stain x 400 Multi-Vacuolated cells, referred to as physaliferous cells (having the appearance of being filled with soap bubbles), are characteristically present within chordomas. However, similar cells may be seen in adenocarcinomas and/or chondrosarcomas requiring immunohistochemical distinction for diagnosis. 19/06/2009 @ 12:25 gliageek _INCLUDE_IMAGE_3087_END_INCLUDE_IMAGE_
Normal skeletal muscle, cytochro Cytochrome oxidase staining assays activity of complex 4 within the electron transport chain. Type I fibers stain darkly, type II fibers stain lightly, and cytochrome oxidase negative fibers are not identified normally (although up to 3% cytochrome oxidase negative fibers may be seen in elderly asymptomatic patients). 09/07/2009 @ 8:05 gliageek _INCLUDE_IMAGE_3088_END_INCLUDE_IMAGE_
Normal skeletal muscle, ATPase s Pre-Incubation at pH 4.3 and activates activity of the myofibrillary ATPase within type I fibers, but does not affect the activity of ATPase within type II fibers. Therefore, the latter appear dark and the former appear light, allowing assessment of fiber types within the muscle biopsy. 09/07/2009 @ 8:10 gliageek _INCLUDE_IMAGE_3089_END_INCLUDE_IMAGE_
Leukemic infiltration of periphe Among the many ways in which the neuromuscular system may be affected in patient's with hematopoietic malignancies, direct leukemic invasion is among the least common. 09/07/2009 @ 8:13 gliageek _INCLUDE_IMAGE_3090_END_INCLUDE_IMAGE_
Normal skeletal muscle, H&E stai Well frozen muscle demonstrates in vivo structure much more reliably then does formalin fixed tissue, and is therefore used in the analysis of primary muscular pathology. Poorly frozen muscle may be uninterpretable due to marked ice crystal artifact. 09/07/2009 @ 8:24 gliageek _INCLUDE_IMAGE_3091_END_INCLUDE_IMAGE_
Normal skeletal muscle, H&E sta Formalin Fixed, paraffin-embedded skeletal muscle is used primarily in the analysis of epimysial and perimysial pathology (inflammation, fibrosis). Regenerating muscle fibers are also easily seen within the formalin fixed paraffin-embedded sections. 09/07/2009 @ 8:26 gliageek _INCLUDE_IMAGE_3092_END_INCLUDE_IMAGE_
Unstructured mini-core, electron Unstructured mini-cores consist of focal areas within the muscle fiber devoid of mitochondria and normal sarcomere structure. Glycogen may be increased in these regions, as is seen in this electron micrographs 09/07/2009 @ 8:30 gliageek _INCLUDE_IMAGE_3093_END_INCLUDE_IMAGE_
Polyglucosan body disease, intra Although rare, small polyglucosan bodies may be encountered in peripheral nerves within normal asymptomatic patients, multiple, large polyglucosan bodies are considered indicative of polyglucosan body disease, a multisystem disorder probably related to type IV glycogen storage disease (Andersen disease, brancher enzyme deficiency) 09/07/2009 @ 8:35 gliageek _INCLUDE_IMAGE_3094_END_INCLUDE_IMAGE_
Gray - Saphenous Nerve An image from Gray's anatomy, cropped to highlight the region of the leg receiving sensation from the saphenous nerve. 07/09/2009 @ 14:49 jdmiles _INCLUDE_IMAGE_3095_END_INCLUDE_IMAGE_
Saphenous Nerve – Sensory dist The unnecessarily large green arrow points to the area shaded in pink, which represents the typical sensory distribution of the Saphenous nerve. 07/09/2009 @ 14:53 jdmiles _INCLUDE_IMAGE_3096_END_INCLUDE_IMAGE_
NCS Axillary Nerve Erb's po Photograph illustrating the motor nerve conduction study of the axillary nerve, stimulating at Erb's point and recording the deltoid. 06/10/2009 @ 22:48 jdmiles _INCLUDE_IMAGE_3097_END_INCLUDE_IMAGE_
NCS Median wrist-palm segmental This is one of two photographs showing the stimulation and recording sites for a median wrist-palm segmental comparison study. This study is useful in evaluating for carpal tunnel syndrome. 06/10/2009 @ 22:57 jdmiles _INCLUDE_IMAGE_3098_END_INCLUDE_IMAGE_
NCS Median wrist-palm segmental This is one of two photographs showing the stimulation and recording sites for a median wrist-palm segmental comparison study. This study is useful in evaluating for carpal tunnel syndrome. 06/10/2009 @ 22:58 jdmiles _INCLUDE_IMAGE_3099_END_INCLUDE_IMAGE_
Median-Ulnar 2nd Lumbrical-Inter This photograph illustrates the technique for stimulating the median nerve and recording the 2nd lumbrical and interosseous in this comparison study of the median and ulnar nerves across the wrist. 06/10/2009 @ 23:03 jdmiles _INCLUDE_IMAGE_3100_END_INCLUDE_IMAGE_
Median-Ulnar 2nd Lumbrical-Inter This photograph illustrates the technique for stimulating the ulnar nerve and recording the 2nd lumbrical and interosseous in this comparison study of the median and ulnar nerves across the wrist. 06/10/2009 @ 23:05 jdmiles _INCLUDE_IMAGE_3101_END_INCLUDE_IMAGE_
Radial Motor NCS, Placement of e This photograph illustrates the placement of the recording electroded on the Extenor Digitorum Communis (EDC) muscle for a radial nerve motor study. 06/10/2009 @ 23:25 jdmiles _INCLUDE_IMAGE_3102_END_INCLUDE_IMAGE_
Radial Motor NCS, recording from This photograph illustrates a radial motor nerve conduction study, recording from the Extenor Digitorum Communis (EDC) muscle. The distal stimulation site is at the elbow, between the brachioradialis muscle and the biceps tendon. 06/10/2009 @ 23:34 jdmiles _INCLUDE_IMAGE_3103_END_INCLUDE_IMAGE_
Radial Motor NCS, Recording the This photograph illustrates a radial motor nerve conduction study, recording from the Extensor Indicis Proprius (EIP) muscle. Stimulation is also performed proximal to the elbow, distal to the spiral groove. 06/10/2009 @ 23:40 jdmiles _INCLUDE_IMAGE_3104_END_INCLUDE_IMAGE_
Radial Motor NCS, Recording the This photograph illustrates a radial motor nerve conduction study, recording from the Extenor Indicis Proprius (EIP) muscle. Stimulation is also performed proximal to the elbow, distal to the spiral groove. 06/10/2009 @ 23:41 jdmiles _INCLUDE_IMAGE_3105_END_INCLUDE_IMAGE_
Spinal Accessory Motor Nerve - r This photograph demonstrates the technique for the spinal accessory motor nerve conduction study, recording from the trapezius. 06/10/2009 @ 23:54 jdmiles _INCLUDE_IMAGE_3106_END_INCLUDE_IMAGE_
Spinal Accessory Motor Nerve - r This photograph demonstrates the technique for the spinal accessory motor nerve conduction study, recording from the trapezius. 06/10/2009 @ 23:55 jdmiles _INCLUDE_IMAGE_3107_END_INCLUDE_IMAGE_
Spinal Accessory Motor Nerve - r This photograph demonstrates the technique for the spinal accessory motor nerve conduction study, recording from the trapezius. 06/10/2009 @ 23:56 jdmiles _INCLUDE_IMAGE_3108_END_INCLUDE_IMAGE_
Phrenic Motor Nerve Conduction S This photograph illustrates the placement of the stimulator in a phrenic motor nerve conduction study. 07/10/2009 @ 0:02 jdmiles _INCLUDE_IMAGE_3109_END_INCLUDE_IMAGE_
Phrenic Motor Nerve Conduction S This photograph illustrates the placement of the recording electrodes in the phrenic motor nerve conduction study. 07/10/2009 @ 0:03 jdmiles _INCLUDE_IMAGE_3110_END_INCLUDE_IMAGE_
Phrenic Motor Nerve Conduction S This photograph illustrates the technique for the phrenic nerve conduction study. 07/10/2009 @ 0:04 jdmiles _INCLUDE_IMAGE_3111_END_INCLUDE_IMAGE_
Median Palmar Mixed Nerve ( This photograph shows the technique for the median palmar mixed nerve conduction study. 07/10/2009 @ 8:37 jdmiles _INCLUDE_IMAGE_3112_END_INCLUDE_IMAGE_
Ulnar Palmar Mixed Nerve (o This photograph illustrates the technique for the ulnar palmar mixed nerve conduction study. 07/10/2009 @ 8:38 jdmiles _INCLUDE_IMAGE_3113_END_INCLUDE_IMAGE_
Ulnar Sensory Nerve - Recording This photograph illustrates the technique for the ulnar sensory study, recording from digit 4 (ring finger). Sensation to digit 4, in most people, is split between the median and ulnar nerves, making this useful in a comparison study looking for a median or ulnar mononeuropathy at the wrist. 07/10/2009 @ 8:44 jdmiles _INCLUDE_IMAGE_3114_END_INCLUDE_IMAGE_
Median Sensory Nerve - Recording This photograph illustrates the technique for the median sensory study, recording from digit 4 (ring finger). Sensation to digit 4, in most people, is split between the median and ulnar nerves, making this useful in a comparison study looking for a median or ulnar mononeuropathy at the wrist. 07/10/2009 @ 8:46 jdmiles _INCLUDE_IMAGE_3115_END_INCLUDE_IMAGE_
Median Sensory Nerve Conduction This photograph illustrates the technique for the median sensory study, recording from digit 1 (thumb). Sensation to digit 1, in most people, is split between the median and radial nerves, making this useful in a comparison study looking for a median mononeuropathy at the wrist (carpal tunnel syndrome). 07/10/2009 @ 8:49 jdmiles _INCLUDE_IMAGE_3116_END_INCLUDE_IMAGE_
Radial Sensory Nerve Conduction This photograph illustrates the technique for the radial sensory study, recording from digit 1 (thumb). Sensation to digit 1, in most people, is split between the median and radial nerves, making this useful in a comparison study looking for a median mononeuropathy at the wrist (carpal tunnel syndrome). 07/10/2009 @ 8:52 jdmiles _INCLUDE_IMAGE_3117_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - ADM 2 This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. In this photograph, stimulation is being performed at the elbow, just distal to the ulnar groove. Stimulation both proximal and distal to the elbow is essential for detecting an ulnar entrapment at the elbow, the most common cause of ulnar mononeuropathy. 07/10/2009 @ 8:59 jdmiles _INCLUDE_IMAGE_3118_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. For stimulation at the wrist, the stimulator is placed adjacent to the flexor carpi ulnaris tendon. The distance between G1 and the distal stimulating site at the wrist should be 4-6 cm. 07/10/2009 @ 9:03 jdmiles _INCLUDE_IMAGE_3119_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. In this photograph, stimulation is being performed at the elbow, just distal to the ulnar groove. Stimulation both proximal and distal to the elbow is essential for detecting an ulnar entrapment at the elbow, the most common cause of ulnar mononeuropathy. 07/10/2009 @ 9:10 jdmiles _INCLUDE_IMAGE_3120_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. In this photograph, stimulation is being performed above the elbow, about 10 cm proximal to the ulnar groove. Stimulation both proximal and distal to the elbow is essential for detecting an ulnar entrapment at the elbow, the most common cause of ulnar mononeuropathy. The patient’s arm should remain in a flexed position at the elbow when performing ulnar motor nerve stimulations. 07/10/2009 @ 9:13 jdmiles _INCLUDE_IMAGE_3121_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. In this photograph, stimulation is being performed in the axilla. The patient’s arm should remain in a flexed position at the elbow when performing ulnar motor nerve stimulations. 07/10/2009 @ 9:16 jdmiles _INCLUDE_IMAGE_3122_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th This photograph illustrates the technique for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. The recording electrode (black, G1) is placed over the belly of the ADM. The reference electrode (red, G2) is placed at the proximal phalanx of the little finger. In this photograph, stimulation is being performed at Erb's point. The patient’s arm should remain in a flexed position at the elbow when performing ulnar motor nerve stimulations. 07/10/2009 @ 9:18 jdmiles _INCLUDE_IMAGE_3123_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th Another view of stimulating at Erb's point for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. 07/10/2009 @ 9:23 jdmiles _INCLUDE_IMAGE_3124_END_INCLUDE_IMAGE_
Erb's Point Stimulation at Erb's point. 07/10/2009 @ 9:24 jdmiles _INCLUDE_IMAGE_3125_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th Another view of stimulating at Erb's point for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. 07/10/2009 @ 9:25 jdmiles _INCLUDE_IMAGE_3126_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th Another view of stimulating at Erb's point for an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. 07/10/2009 @ 9:26 jdmiles _INCLUDE_IMAGE_3127_END_INCLUDE_IMAGE_
Ulnar Motor Nerve - Recording th Another view of stimulation at the axilla in an ulnar motor nerve conduction study, recording from the abductor digiti minimi (ADM) muscle. 07/10/2009 @ 9:28 jdmiles _INCLUDE_IMAGE_3128_END_INCLUDE_IMAGE_
Ulnar Sensory Nerve Conduction S This photograph illustrates the technique for performing an ulnar sensory nerve conduction study. The recording electrode (G1, black) is placed on the proximal phalanx of the little finger. The reference electrode (G2, red) is placed on the middle phalanx of the little finger. A distance of 11 cm is measured from G1 to the distal wrist crease over the ulnar nerve. The nerve is stimulated at the wrist, adjacent the flexor carpi ulnaris tendon. The nerve can also be stimulated at the elbow, above the ulnar groove. 07/10/2009 @ 9:33 jdmiles _INCLUDE_IMAGE_3129_END_INCLUDE_IMAGE_
Radial Sensory Nerve Conduction This photograph illustrates the technique for performing a radial sensory nerve conduction study. The recording electrode (G1, black) is placed over the anatomical snuffbox, between the index finger and thumb, at the point where the bones are connected. The reference electrode (G1, red) is placed on proximal phalanx at the base of the thumb. A distance of 10 cm is measured from G1 straight back over the radius bone in the forearm. The nerve is stimulated in the forearm, over the radius bone. 07/10/2009 @ 9:41 jdmiles _INCLUDE_IMAGE_3130_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve Con This photograph illustrates the technique for a musculocutaneous motor nerve conduction study. The recording electrode (G1, black) is placed over the belly of the biceps muscle. Stimulation occurs in the axilla, just beneath the tendon. 07/10/2009 @ 9:49 jdmiles _INCLUDE_IMAGE_3131_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve Con This photograph illustrates the technique for a musculocutaneous motor nerve conduction study. The recording electrode (G1, black) is placed over the belly of the biceps muscle. Stimulation occurs in the axilla, just beneath the tendon. 07/10/2009 @ 9:50 jdmiles _INCLUDE_IMAGE_3132_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve Con This photograph illustrates the technique for a musculocutaneous motor nerve conduction study. The recording electrode (G1, black) is placed over the belly of the biceps muscle. The proximal stimulation site is at Erb's point. 07/10/2009 @ 9:51 jdmiles _INCLUDE_IMAGE_3133_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve Con This photograph illustrates the technique for a musculocutaneous motor nerve conduction study. The recording electrode (G1, black) is placed over the belly of the biceps muscle. The proximal stimulation site is at Erb's point. 07/10/2009 @ 9:52 jdmiles _INCLUDE_IMAGE_3134_END_INCLUDE_IMAGE_
Musculocutaneous Motor Nerve Con This photograph illustrates the technique for a musculocutaneous motor nerve conduction study. The recording electrode (G1, black) is placed over the belly of the biceps muscle. The proximal stimulation site is at Erb's point. 07/10/2009 @ 9:54 jdmiles _INCLUDE_IMAGE_3135_END_INCLUDE_IMAGE_
Median Motor Nerve Conduction St This photograph illustrates the technique for performing a median motor nerve conduction study, recording from the abductor pollicis brevis (APB) muscle. The recording electrode (G1, black) is placed over the belly of the APB. The reference electrode (G2, red) is placed at the proximal phalanx of the thumb. The distal stimulation site is at the wrist, proximal to the distal wrist crease. The distance between G1 and the distal stimulating site at the wrist should be about 4-6 cm. 07/10/2009 @ 9:59 jdmiles _INCLUDE_IMAGE_3136_END_INCLUDE_IMAGE_
Median Motor Nerve Conduction St This photograph illustrates the technique for performing a median motor nerve conduction study, recording from the abductor pollicis brevis (APB) muscle. The recording electrode (G1, black) is placed over the belly of the APB. The reference electrode (G2, red) is placed at the proximal phalanx of the thumb. Stimulation shown here is at the elbow, just proximal to the elbow crease, medial to the pulse or the biceps tendon. 07/10/2009 @ 10:02 jdmiles _INCLUDE_IMAGE_3137_END_INCLUDE_IMAGE_
Median Motor Nerve Conduction St This photograph illustrates the technique for performing a median motor nerve conduction study, recording from the abductor pollicis brevis (APB) muscle. The recording electrode (G1, black) is placed over the belly of the APB. The reference electrode (G2, red) is placed at the proximal phalanx of the thumb. Stimulation can be performed at the axilla. 07/10/2009 @ 10:04 jdmiles _INCLUDE_IMAGE_3138_END_INCLUDE_IMAGE_
Median Motor Nerve Conduction St Another view of the median motor nerve conduction study, recording the Abductor Pollicis Brevis (APB) muscle, stimulating at the wrist. 07/10/2009 @ 10:07 jdmiles _INCLUDE_IMAGE_3139_END_INCLUDE_IMAGE_
Median Sensory Nerve Conduction This photograph illustrates the technique for performing a median sensory nerve conduction study, recording the index finger. The recording electrode (G1, black) is placed on the proximal phalanx of the index finger. The reference electrode (G2, red) is placed on the middle phalanx of the index finger. A distance of 13 cm is measured from G1 to the distal wrist crease over the median nerve. The nerve is stimulated at the wrist, proximal to the wrist crease and between the flexor carpi radialis and palmaris longus tendons. 07/10/2009 @ 10:19 jdmiles _INCLUDE_IMAGE_3140_END_INCLUDE_IMAGE_
Radial Motor Nerve Conduction St This photograph illustrates the technique for performing a radial motor nerve conduction study, recording form the extensor indicis proprius (EIP) muscle. The recording electrode (G1, black) is placed over the belly of the EIP. The reference electrode (G2, red) is placed on the dorsomedial wrist, near the ulnar styloid process. Here, the stimulation is applied to the posterior arm, proximal to the spiral groove. 07/10/2009 @ 10:43 jdmiles _INCLUDE_IMAGE_3141_END_INCLUDE_IMAGE_
Radial Motor NCS, Recording the This photograph illustrates a radial motor nerve conduction study, recording from the Extenor Digitorum Communis (EDC) muscle. The stimulation site shown is on the posterior arm, proximal to the elbow, distal to the spiral groove. 07/10/2009 @ 10:52 jdmiles _INCLUDE_IMAGE_3142_END_INCLUDE_IMAGE_
Radial Motor NCS, Recording the Another view of the radial motor nerve conduction study, stimulating distal to the spiral groove. 07/10/2009 @ 10:54 jdmiles _INCLUDE_IMAGE_3143_END_INCLUDE_IMAGE_
Radial Motor NCS, Recording the This photograph illustrates a radial motor nerve conduction study, recording from the Extenor Digitorum Communis (EDC) muscle. The stimulation site shown is on the posterior arm, proximal to the spiral groove. 07/10/2009 @ 10:55 jdmiles _INCLUDE_IMAGE_3144_END_INCLUDE_IMAGE_
Peripheral Nerve - Perineurium This is a section of plastic-embedded peripheral nerve stained with toluidine blue. The unnecessarily large green arrow points to the perineurium, a sheath of connective tissue surrounding the fascicle. The epineurium, a more superficial layer surrounding the whole nerve, is not seen in this image. 09/01/2010 @ 12:45 jdmiles _INCLUDE_IMAGE_3145_END_INCLUDE_IMAGE_
CT Left MCA Infarct This is a CT scan of a recent left MCA infarct. There is considerable edema in the left hemisphere, with midline shift. There is also some hemorrhage on the right. 16/03/2010 @ 4:22 jdmiles _INCLUDE_IMAGE_3146_END_INCLUDE_IMAGE_
Neuron A drawing of a neuron. Based on an image by wikimedia commons user LadyofHats, modified by jdmiles. 07/04/2010 @ 16:07 jdmiles _INCLUDE_IMAGE_3147_END_INCLUDE_IMAGE_
Neuron - Soma An illustration of a neuron. The unnecessarily large green arrow is pointing to the soma or cell body of the neuron. 07/04/2010 @ 16:41 jdmiles _INCLUDE_IMAGE_3148_END_INCLUDE_IMAGE_
Bear with arrow This is a bear's left ear. 16/08/2010 @ 22:34 jdmiles _INCLUDE_IMAGE_3149_END_INCLUDE_IMAGE_
Bear with arrow This is a bear. 16/08/2010 @ 22:36 jdmiles _INCLUDE_IMAGE_3150_END_INCLUDE_IMAGE_
Absence Seizures Absence Seizures 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3151_END_INCLUDE_IMAGE_
Achilles Reflex Achilles Reflex 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3152_END_INCLUDE_IMAGE_
Acoustic Neuroma Acoustic Neuroma 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3153_END_INCLUDE_IMAGE_
Adult Brain Tumor Incidence Adult Brain Tumor Incidence 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3154_END_INCLUDE_IMAGE_
Agraphesthesia Agraphesthesia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3155_END_INCLUDE_IMAGE_
Alzheimer Disease Alzheimer Disease 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3156_END_INCLUDE_IMAGE_
Anterior vs. Posterior Pituitary Anterior vs. Posterior Pituitary Hormones 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3157_END_INCLUDE_IMAGE_
Argyll-Robertson Pupil Argyll-Robertson Pupil 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3158_END_INCLUDE_IMAGE_
Arm Dermatomes Arm Dermatomes 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3159_END_INCLUDE_IMAGE_
Astereognosia Astereognosia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3160_END_INCLUDE_IMAGE_
Astrocytoma Treatment Astrocytoma Treatment 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3161_END_INCLUDE_IMAGE_
Ataxia-Telangiectasia Ataxia-Telangiectasia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3162_END_INCLUDE_IMAGE_
Ataxia Ataxia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3163_END_INCLUDE_IMAGE_
Bell's Palsy Bell's Palsy 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3164_END_INCLUDE_IMAGE_
Belly Button Dermatome Belly Button Dermatome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3165_END_INCLUDE_IMAGE_
Botulinum Toxin Botulinum Toxin 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3166_END_INCLUDE_IMAGE_
Botulism Botulism 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3167_END_INCLUDE_IMAGE_
Brachial Plexus Brachial Plexus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3168_END_INCLUDE_IMAGE_
Brain Cancer Incidence In Adults Brain Cancer Incidence In Adults 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3169_END_INCLUDE_IMAGE_
Brain Stem_Cranial Nerve_Id Brain Stem_Cranial Nerve_Id 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3170_END_INCLUDE_IMAGE_
Brain Tumor Incidence In Childre Brain Tumor Incidence In Children 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3171_END_INCLUDE_IMAGE_
Broca's Aphasia Broca's Aphasia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3172_END_INCLUDE_IMAGE_
Bromocriptine Bromocriptine 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3173_END_INCLUDE_IMAGE_
Cavernous Sinus Cavernous Sinus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3174_END_INCLUDE_IMAGE_
Cerebral vs Cerebellar Lateralit Cerebral vs Cerebellar Laterality 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3175_END_INCLUDE_IMAGE_
Circle of Willis Circle of Willis 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3176_END_INCLUDE_IMAGE_
Cranial Nerve 3 And 7 Function Cranial Nerve 3 And 7 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3177_END_INCLUDE_IMAGE_
Cranial Nerve 7 And 9 Function Cranial Nerve 7 And 9 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3178_END_INCLUDE_IMAGE_
Cranial Nerve 9 And 10 Function Cranial Nerve 9 And 10 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3179_END_INCLUDE_IMAGE_
Cranial Nerve 1 Function Cranial Nerve 1 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3180_END_INCLUDE_IMAGE_
Cranial Nerve 1 Name Cranial Nerve 1 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3181_END_INCLUDE_IMAGE_
Cranial Nerve 10 Function 2 Cranial Nerve 10 Function 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3182_END_INCLUDE_IMAGE_
Cranial Nerve 10 Function Cranial Nerve 10 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3183_END_INCLUDE_IMAGE_
Cranial Nerve 10 Name Cranial Nerve 10 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3184_END_INCLUDE_IMAGE_
Cranial Nerve 11 Function Cranial Nerve 11 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3185_END_INCLUDE_IMAGE_
Cranial Nerve 11 Name Cranial Nerve 11 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3186_END_INCLUDE_IMAGE_
Cranial Nerve 12 Function 2 Cranial Nerve 12 Function 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3187_END_INCLUDE_IMAGE_
Cranial Nerve 12 Function Cranial Nerve 12 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3188_END_INCLUDE_IMAGE_
Cranial Nerve 2 Function Cranial Nerve 2 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3189_END_INCLUDE_IMAGE_
Cranial Nerve 2 Name Cranial Nerve 2 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3190_END_INCLUDE_IMAGE_
Cranial Nerve 3 Function 2 Cranial Nerve 3 Function 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3191_END_INCLUDE_IMAGE_
Cranial Nerve 3 Function Cranial Nerve 3 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3192_END_INCLUDE_IMAGE_
Cranial Nerve 3 Name Cranial Nerve 3 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3193_END_INCLUDE_IMAGE_
Cranial Nerve 4 Name Cranial Nerve 4 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3194_END_INCLUDE_IMAGE_
Cranial Nerve 4 Palsy Cranial Nerve 4 Palsy 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3195_END_INCLUDE_IMAGE_
Cranial Nerve 5 Function Cranial Nerve 5 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3196_END_INCLUDE_IMAGE_
Cranial Nerve 5 Name Cranial Nerve 5 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3197_END_INCLUDE_IMAGE_
Cranial Nerve 6 Name Cranial Nerve 6 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3198_END_INCLUDE_IMAGE_
Cranial Nerve 7 Function 2 Cranial Nerve 7 Function 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3199_END_INCLUDE_IMAGE_
Cranial Nerve 7 Function Cranial Nerve 7 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3200_END_INCLUDE_IMAGE_
Cranial Nerve 7 Name Cranial Nerve 7 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3201_END_INCLUDE_IMAGE_
Cranial Nerve 8 Function Cranial Nerve 8 Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3202_END_INCLUDE_IMAGE_
Cranial Nerve 8 Name Cranial Nerve 8 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3203_END_INCLUDE_IMAGE_
Cranial Nerve 9 Name Cranial Nerve 9 Name 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3204_END_INCLUDE_IMAGE_
Cranial Nerve Hemorrhages Cranial Nerve Hemorrhages 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3205_END_INCLUDE_IMAGE_
Common Causes Of Cranial Nerve 3 Common Causes Of Cranial Nerve 3 Palsy 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3206_END_INCLUDE_IMAGE_
Cranial Nerves: Sensory, Motor, Cranial Nerves: Sensory, Motor, or Both 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3207_END_INCLUDE_IMAGE_
Creutzfeldt-Jakob Disease Creutzfeldt-Jakob Disease 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3208_END_INCLUDE_IMAGE_
Diffuse Axonal Injury Diffuse Axonal Injury 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3209_END_INCLUDE_IMAGE_
Diplopia Diplopia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3210_END_INCLUDE_IMAGE_
Disdiadochokinesis Disdiadochokinesis 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3211_END_INCLUDE_IMAGE_
Dorsal Columns Dorsal Columns 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3212_END_INCLUDE_IMAGE_
Guillain-Barre Syndrome Guillain-Barre Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3213_END_INCLUDE_IMAGE_
Hand Dermatomes Hand Dermatomes 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3214_END_INCLUDE_IMAGE_
Hearing Loss In a Rock Band Memb Hearing Loss In a Rock Band Member 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3215_END_INCLUDE_IMAGE_
Horner's Syndrome Horner's Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3216_END_INCLUDE_IMAGE_
Huntington's Chorea Huntington's Chorea 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3217_END_INCLUDE_IMAGE_
Hypothalamic Nuclei Hypothalamic Nuclei 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3218_END_INCLUDE_IMAGE_
Increased Intracranial Pressure Increased Intracranial Pressure 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3219_END_INCLUDE_IMAGE_
Inferior Colliculus Inferior Colliculus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3220_END_INCLUDE_IMAGE_
Key Brodmann Areas Key Brodmann Areas 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3221_END_INCLUDE_IMAGE_
Klumpke Syndrome Klumpke Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3222_END_INCLUDE_IMAGE_
Lateral Medullary Syndrome Lateral Medullary Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3223_END_INCLUDE_IMAGE_
Lumbar Disc Herniation Affected Lumbar Disc Herniation Affected Reflexes By Level 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3224_END_INCLUDE_IMAGE_
Marcus-Gunn Pupil Marcus-Gunn Pupil 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3225_END_INCLUDE_IMAGE_
Medial vs. Lateral Geniculate Bo Medial vs. Lateral Geniculate Bodies 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3226_END_INCLUDE_IMAGE_
Median Nerve Runs with Radial Ar Median Nerve Runs with Radial Artery 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3227_END_INCLUDE_IMAGE_
Meisner's Plexus Meisner's Plexus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3228_END_INCLUDE_IMAGE_
MEN Syndromes MEN Syndromes 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3229_END_INCLUDE_IMAGE_
Meniere's Disease Meniere's Disease 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3230_END_INCLUDE_IMAGE_
Meningitis Organisms Meningitis Organisms 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3231_END_INCLUDE_IMAGE_
Motor vs. Sensory Fibers Motor vs. Sensory Fibers 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3232_END_INCLUDE_IMAGE_
Multiple Sclerosis Multiple Sclerosis 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3233_END_INCLUDE_IMAGE_
Myasthenia Gravis_Eaton Lambert Myasthenia Gravis_Eaton Lambert 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3234_END_INCLUDE_IMAGE_
Myenteric Plexus Myenteric Plexus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3235_END_INCLUDE_IMAGE_
Neuroblastoma Neuroblastoma 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3236_END_INCLUDE_IMAGE_
Neurofibromatosis 1 vs. 2 Neurofibromatosis 1 vs. 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3237_END_INCLUDE_IMAGE_
Neuron Specific Antigen Neuron Specific Antigen 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3238_END_INCLUDE_IMAGE_
Oligodendroglioma Oligodendroglioma 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3239_END_INCLUDE_IMAGE_
Ophthalmoparesis Ophthalmoparesis 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3240_END_INCLUDE_IMAGE_
Spinal Cord End Levels Spinal Cord End Levels 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3241_END_INCLUDE_IMAGE_
Spinothalamic Tract Spinothalamic Tract 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3242_END_INCLUDE_IMAGE_
Sturge-Weber Syndrome Sturge-Weber Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3243_END_INCLUDE_IMAGE_
Superior Colliculus Superior Colliculus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3244_END_INCLUDE_IMAGE_
Superior vs. Inferior Brachial P Superior vs. Inferior Brachial Plexus Injury 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3245_END_INCLUDE_IMAGE_
Syphilis Treatment Syphilis Treatment 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3246_END_INCLUDE_IMAGE_
Syringomyelia Syringomyelia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3247_END_INCLUDE_IMAGE_
T1 vs. T2 Imaging T1 vs. T2 Imaging 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3248_END_INCLUDE_IMAGE_
Tetanus Tetanus 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3249_END_INCLUDE_IMAGE_
Tibial Nerve Function Tibial Nerve Function 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3250_END_INCLUDE_IMAGE_
Toxidrome 1 Toxidrome 1 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3251_END_INCLUDE_IMAGE_
Toxidrome 2 Toxidrome 2 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3252_END_INCLUDE_IMAGE_
Toxidrome 3 Toxidrome 3 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3253_END_INCLUDE_IMAGE_
Treatment For Tonic-Clonic Seizu Treatment For Tonic-Clonic Seizures 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3254_END_INCLUDE_IMAGE_
Upper vs Lower Motor Neuron Sign Upper vs Lower Motor Neuron Signs 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3255_END_INCLUDE_IMAGE_
Ventricular System Of The Brain Ventricular System Of The Brain 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3256_END_INCLUDE_IMAGE_
Voice Hoarseness Voice Hoarseness 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3257_END_INCLUDE_IMAGE_
Volkman's Contracture Volkman's Contracture 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3258_END_INCLUDE_IMAGE_
Weber Syndrome Weber Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3259_END_INCLUDE_IMAGE_
Wernicke's Aphasia Wernicke's Aphasia 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3260_END_INCLUDE_IMAGE_
Wernicke-Korsakoff Syndrome Wernicke-Korsakoff Syndrome 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3261_END_INCLUDE_IMAGE_
Winged Scapula Winged Scapula 17/07/2011 @ 9:42 adamsprouseblum _INCLUDE_IMAGE_3262_END_INCLUDE_IMAGE_
MRI T1 w Gad lacune A T1-weighted MRI of the brain, with gadolinium contrast. A remote lacunar infarct in the left basal ganglia is visible. 14/02/2013 @ 11:50 jdmiles _INCLUDE_IMAGE_3263_END_INCLUDE_IMAGE_
Limbic Encephalitis H&E 200x An H&E slide of brain, at 200x magnification. This patient has limbic encephalitis. Characteristic features visible here include nodules of microglia, and reactive astrocytosis, and the absence of liquefactive necrosis. 14/02/2013 @ 12:48 jdmiles _INCLUDE_IMAGE_3264_END_INCLUDE_IMAGE_
MRI acute R MCA stroke This shows an MRI from someone who has had an acute right middle cerebral artery infarction. The image on the left is a diffusion-weighted MRI (DWI). The area in white shows the acute infarction. The image on the right shows the ADC map corresponding to the same image. Since the area which is bright on DWI is dark on the ADC, we can conclude that this infarction is acute. 20/02/2013 @ 13:20 jdmiles _INCLUDE_IMAGE_3265_END_INCLUDE_IMAGE_
MRI Right MCA stroke DWI This is a diffusion-weighted MRI image showing hyperintensity in the distribution of the right middle cerebral artery. This patient has an acute stroke in that territory. 20/02/2013 @ 13:27 jdmiles _INCLUDE_IMAGE_3266_END_INCLUDE_IMAGE_
Mona Lisa - Left Horner An image of the Mona Lisa, defaced to illustrate Horner syndrome. 22/02/2013 @ 18:15 jdmiles _INCLUDE_IMAGE_3267_END_INCLUDE_IMAGE_
ALS crim This is a myelin-stained section of spinal cord from a patient who had amyotrophic lateral sclerosis (ALS). Symmetrical degeneration of corticospinal axons occurs secondary to degeneration of cerebrocortical motor neurons in ALS. When axons degenerate, myelin will secondarily be lost. The resulting reactive astrocytosis produces a firm scarlike alteration in the lateral (and anterior) corticospinal tracts or "lateral sclerosis". 27/02/2013 @ 15:19 jdmiles _INCLUDE_IMAGE_3268_END_INCLUDE_IMAGE_
Acanthameba 600x This is an H&E section of brain, at 600x magnification, from a person who had an acanthameba infection. Protozoal infections are characterized by visible trophozoites, and sometimes protozoal cysts or pseudocysts. The size of the protozoal organisms within this section are consistent with Acanthameba infection. 27/02/2013 @ 15:29 jdmiles _INCLUDE_IMAGE_3269_END_INCLUDE_IMAGE_
Horizontal Plane An image illustrating a horizontal plane in relation to the human body in anatomical position. 07/06/2013 @ 17:08 jdmiles _INCLUDE_IMAGE_3270_END_INCLUDE_IMAGE_
Coronal Plane An image illustrating a coronal or frontal plane in relation to the human body in anatomical position. 07/06/2013 @ 17:10 jdmiles _INCLUDE_IMAGE_3271_END_INCLUDE_IMAGE_
Sagittal Plane An image illustrating a sagittal plane in relation to the human body in anatomical position. 07/06/2013 @ 17:11 jdmiles _INCLUDE_IMAGE_3272_END_INCLUDE_IMAGE_
Planes of Section Fish An illustration of the planes of section (sagittal, transverse or horizontal, and frontal or coronal), as they apply to a fish. 07/06/2013 @ 17:22 jdmiles _INCLUDE_IMAGE_3273_END_INCLUDE_IMAGE_
Planes of Section An illustration of the planes of section. The illustration shows the sagittal plane, the frontal or coronal plane, and the horizontal or transverse plane. 07/06/2013 @ 17:24 jdmiles _INCLUDE_IMAGE_3274_END_INCLUDE_IMAGE_
Anatomical Position An illustration of the anatomical position. 07/06/2013 @ 17:44 jdmiles _INCLUDE_IMAGE_3275_END_INCLUDE_IMAGE_
Proximal Proximal means towards the midline of the body or towards an origin or point of attachment. Compare to distal. 07/06/2013 @ 19:26 jdmiles _INCLUDE_IMAGE_3276_END_INCLUDE_IMAGE_
Distal Distal means away from the midline of the body or away from an origin or point of attachment. Compare to proximal. 07/06/2013 @ 19:31 jdmiles _INCLUDE_IMAGE_3277_END_INCLUDE_IMAGE_
Dorsal The dorsal aspect of a person is that part that is towards the surface of the back. Compare to ventral. 07/06/2013 @ 19:55 jdmiles _INCLUDE_IMAGE_3278_END_INCLUDE_IMAGE_
Ventral The ventral aspect of a person is that part that is towards the surface of the belly. Compare to dorsal. 07/06/2013 @ 19:56 jdmiles _INCLUDE_IMAGE_3279_END_INCLUDE_IMAGE_
Rostral-Caudal Rostral means "towards the nose," and Caudal means "towards the tail." In humans, this axis takes a sharp turn when it reaches the brain. This makes the rostral-caudal axis different from the anterior-posterior axis and from the inferior-superior axis. 07/06/2013 @ 23:30 jdmiles _INCLUDE_IMAGE_3280_END_INCLUDE_IMAGE_
Parasagittal Plane If a sagittal plane is made through the midline of the body, so that the portions of the body on either side are equal in size, then that is called the midsagittal plane. Any other sagittal section (parallel to but not the same as the midsagittal section) can also be called a parasagittal section. 07/06/2013 @ 23:40 jdmiles _INCLUDE_IMAGE_3281_END_INCLUDE_IMAGE_
Rostral Caudal whole body The red bar indicates the direction of the rostral-caudal axis. In the trunk, caudal and inferior are synonymous, and rostral and superior mean the same thing. Thus the sacrum is caudal to the lumbar vetebrae. In the head however, the axis turns sharply, and caudal is no longer the same as inferior. In the head, rostral and anterior mean the same direction, and caudal means the same thing as posterior. The red arrowhead represents the rostral direction. 08/06/2013 @ 15:13 jdmiles _INCLUDE_IMAGE_3282_END_INCLUDE_IMAGE_
Medial Medial means "towards the midline of the body." Your nose is medial to your ears. 08/06/2013 @ 15:16 jdmiles _INCLUDE_IMAGE_3283_END_INCLUDE_IMAGE_
Lateral Lateral means "away from the body's midline." If you are like most people, your eyes are lateral to your nose. 08/06/2013 @ 15:20 jdmiles _INCLUDE_IMAGE_3284_END_INCLUDE_IMAGE_
Neuron A cartoon illustration of a simple neuron. 08/06/2013 @ 16:37 jdmiles _INCLUDE_IMAGE_3285_END_INCLUDE_IMAGE_
Neuron, numbered A cartoon illustration showing the basic parts of a simple neuron. Like any cell, all neurons have a cell body (1), also called the soma. Neurons also usually have numerous processes called dendrites (2), and a single process called an axon (3). 08/06/2013 @ 16:42 jdmiles _INCLUDE_IMAGE_3286_END_INCLUDE_IMAGE_
Neuron with afferent connections In a typical neuron, the dendrites make connections with processes from many other neurons. These connections can be thought of as bringing afferent (incoming) electrical information to the soma. 08/06/2013 @ 16:44 jdmiles _INCLUDE_IMAGE_3287_END_INCLUDE_IMAGE_
Neuron with connections In this illustration, the tan processes connecting to our neuron are providing afferent (incoming) electrical information to the neuron. At the axon hillock, where the soma gives rise to the axon, if there is sufficient current change to cause the membrane to depolarize to the threshold potential, an action potential is generated. This action potential travels distally down the axon, eventually carrying information to other cells. In this illustration, our neuron's axon branches at the distal end, and synapses onto other neurons (shown in light grey). 08/06/2013 @ 16:49 jdmiles _INCLUDE_IMAGE_3288_END_INCLUDE_IMAGE_
Neuron soma The soma, or cell body of a neuron is highlighted in green in this image. The soma contains the nucleus of a neuron, and is where much of the cell's basic functions take place. 08/06/2013 @ 16:54 jdmiles _INCLUDE_IMAGE_3289_END_INCLUDE_IMAGE_
Neuron dendrites In this cartoon illustration of a neuron, the dendrites are labeled in green. These processes synapse onto other neurons, and bring afferent information to the cell. 08/06/2013 @ 16:55 jdmiles _INCLUDE_IMAGE_3290_END_INCLUDE_IMAGE_
Neuron axon In this cartoon illustration of a neuron, the single axon is highlighted in green. The axon carries electrical information away from the soma, making efferent connections with other cells. Depending on the location and function of a neuron, an axon may be very short, or may be longer than a meter or two. 08/06/2013 @ 17:00 jdmiles _INCLUDE_IMAGE_3291_END_INCLUDE_IMAGE_
Neuron myelin The axons of some neurons are wrapped in a fatty material called myelin. Myelin acts as an electrical insulator. Axons with myelin are capable of carrying information at much faster speeds than unmyelinated axons. In this illustration of a neuron, the myelin wrapping the axon is labelled in green. 08/06/2013 @ 17:03 jdmiles _INCLUDE_IMAGE_3292_END_INCLUDE_IMAGE_
Neuron myelin segment In this illustration of a neuron with a myelinated axon, a single segment of myelin is illustrated in green. Myelin is not part of the neuron itself. It is made up of membrane from a glial cell wrapped around the axon multiple times. In the central nervous system, myelin is formed from processes of oligodendrocytes, and one oligodendrocyte may provide myelin segments for multiple axons. In the peripheral nervous system, myelin is formed by Schwann cells, and each Schwann cell creates a segment of myelin for a single axon. 08/06/2013 @ 17:09 jdmiles _INCLUDE_IMAGE_3293_END_INCLUDE_IMAGE_
Oligodendrocyte An oligodendrocyte, labelled with a green fluorescent stain. Note the numerous processes arising from the center of the cell. Oligodendrocytes wrap their processes around the axons of different neurons, providing myelin for those axons. One oligodendrocyte may provide myelin for many different neurons. 08/06/2013 @ 17:14 jdmiles _INCLUDE_IMAGE_3294_END_INCLUDE_IMAGE_
How myelin wraps around an axon This cartoon illustration attempts to illustrate how a Schwann cell wraps around an axon to create myelin. 08/06/2013 @ 17:36 jdmiles _INCLUDE_IMAGE_3295_END_INCLUDE_IMAGE_
Myelin sheath An illustration of how an oligodendrocyte lays down a myelin sheath around a segment of axon. 08/06/2013 @ 17:40 jdmiles _INCLUDE_IMAGE_3296_END_INCLUDE_IMAGE_
Synapse An illustration of a synapse 08/06/2013 @ 17:41 jdmiles _INCLUDE_IMAGE_3297_END_INCLUDE_IMAGE_
NMJ An illustation of a neuromuscular junction, which is a synapse between a nerve axon and a muscle cell. Like other chemical synapses, there are vesicles of neurotransmitters (small green circles in this image) stored inside the terminal bouton of the presynaptic cell. When the electrical depolarization of an action potential reaches the terminal bouton, the vesicles fuse with the membrane of the presynaptic cell, spilling their neurotransmitter contents into the space between the two cells. The molecules of neurotransmitter passively diffuse across this space, and bind to receptors on the postynaptic membrane (shown here in red). 08/06/2013 @ 18:20 jdmiles _INCLUDE_IMAGE_3298_END_INCLUDE_IMAGE_
Grey Matter vs White Matter In this horizontal or axial section of human brain, the distinction between white matter and grey matter is well defined. The green arrows in this image point to the cerebral cortex, a rim of grey matter. The green arrows point to white matter. The somata or cell bodies of neurons are found in grey matter. The white matter lacks neuron cell bodies, and is comprised largely of axons. Many of the axons in white matter are myelinated. The lipid-rich myelin contributes to the whitish color of white matter. The brain specimens used in a gross anatomy lab are usually preserved in formalin or something similar. Consequently, the difference in color between grey and white matter is not as pronounced. 08/06/2013 @ 18:47 jdmiles _INCLUDE_IMAGE_3299_END_INCLUDE_IMAGE_
Brain Horizontal VHP A horizontal (axial) section through human brain. 08/06/2013 @ 19:10 jdmiles _INCLUDE_IMAGE_3300_END_INCLUDE_IMAGE_
Brain Horizontal Cortex highligh The cerebral cortex is highlighted in green in this horizontal section of human brain. 08/06/2013 @ 19:11 jdmiles _INCLUDE_IMAGE_3301_END_INCLUDE_IMAGE_
Lobes of the cerebral hemisphere In this image, the occipital lobe is green, the temporal lobe is yellow, the parietal lobe is blue, and the frontal lobe is red. 11/06/2013 @ 1:26 jdmiles _INCLUDE_IMAGE_3302_END_INCLUDE_IMAGE_
CT Circle of Willis A CT of normal brain showing both middle cerebral arteries, both posterior cerebral arteries. 07/07/2013 @ 20:01 jdmiles _INCLUDE_IMAGE_3303_END_INCLUDE_IMAGE_
CT dense MCA This is a head CT from a person who has recently begun to show symptoms of a severe left MCA stroke. As CT does not show tissue changes in the first several hours, the brain parenchyma appears normal even though it is infarcting. What can be seen sometimes, and is seen in this image, is an unusually radiodense appearance of the left middle cerebral artery. The clotted blood in this artery gives it a brighter white appearance than the right MCA. 08/07/2013 @ 0:40 jdmiles _INCLUDE_IMAGE_3304_END_INCLUDE_IMAGE_
CTA Right M1 occlusion A CT angiogram of the vessels in the brain. The vessels for the left side of the brain are on the right side of the image, and the ones for the right side of the brain are on the left side of the image. Note how the right middle cerebral artery (MCA) stops abruptly just distal to its origin from the circle of Willis. Compare to the healthier left MCA. 08/07/2013 @ 1:16 jdmiles _INCLUDE_IMAGE_3305_END_INCLUDE_IMAGE_
CT dense MCA with arrow The unnecessarily large green arrow points to the dense middle cerebral artery (MCA) 08/07/2013 @ 1:18 jdmiles _INCLUDE_IMAGE_3306_END_INCLUDE_IMAGE_
Normal head CT A normal head CT for comparison. The left MCA is visible, but is less dense (it is a darker shade of grey). 08/07/2013 @ 1:25 jdmiles _INCLUDE_IMAGE_3307_END_INCLUDE_IMAGE_
MRI T2 semicircular canals A T2-weighted MRI of the brain. The unnecessarily large green arrow points to the left semicircular canals. 08/07/2013 @ 1:41 jdmiles _INCLUDE_IMAGE_3308_END_INCLUDE_IMAGE_
MRI T2 MCA ACA normal A T2-weighted MRI image of a normal brain. In this slice, both middle cerebral arteries, both anterior cerebral arteries, and the anterior communicating arteries can be seen. 08/07/2013 @ 2:02 jdmiles _INCLUDE_IMAGE_3309_END_INCLUDE_IMAGE_
T2 MRI MCA ACA highlighted A T2-weighted MRI image of a normal brain. In this slice, both middle cerebral arteries, both anterior cerebral arteries, and the anterior communicating arteries are highlighted in green. 08/07/2013 @ 2:03 jdmiles _INCLUDE_IMAGE_3310_END_INCLUDE_IMAGE_
CT Circle of Willis highlighted This CT of normal brain shows both middle cerebral arteries (MCAs) and both posterior cerebral arteries (PCAs), highlighted in green. 08/07/2013 @ 2:13 jdmiles _INCLUDE_IMAGE_3311_END_INCLUDE_IMAGE_
CT R MCA stroke A non-contrast head CT showing a recent stroke in the territory of the right middle cerebral artery (MCA). 08/07/2013 @ 12:42 jdmiles _INCLUDE_IMAGE_3312_END_INCLUDE_IMAGE_
CT SDH 1 A head CT showing a right subdural hematoma. 08/07/2013 @ 12:44 jdmiles _INCLUDE_IMAGE_3313_END_INCLUDE_IMAGE_
CT SDH 2 A head CT showing a right subdural hematoma. 08/07/2013 @ 12:48 jdmiles _INCLUDE_IMAGE_3314_END_INCLUDE_IMAGE_
CT SDH mass effect and midline s A head CT showing a right subdural hematoma. There is mass effect and shift of brain's midline toward the left. Notice also that the right lateral ventricle is no longer visible as a result of this mass effect. 08/07/2013 @ 12:56 jdmiles _INCLUDE_IMAGE_3315_END_INCLUDE_IMAGE_
CT left SDH mass effect A head CT showing a left subdural hematoma. The mass effect from the SDH has compressed the left hemisphere to the extent that the left lateral ventricle is no longer visible. 08/07/2013 @ 12:59 jdmiles _INCLUDE_IMAGE_3316_END_INCLUDE_IMAGE_
CT left SDH This is a head CT showing a left subdural hematoma. 08/07/2013 @ 13:18 jdmiles _INCLUDE_IMAGE_3317_END_INCLUDE_IMAGE_
MRI ADC meningioma This is an ADC sequence MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:29 jdmiles _INCLUDE_IMAGE_3318_END_INCLUDE_IMAGE_
MRI DWI meningioma This is a DWI sequence MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:30 jdmiles _INCLUDE_IMAGE_3319_END_INCLUDE_IMAGE_
MRI FLAIR meningioma This is a FLAIR sequence MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:31 jdmiles _INCLUDE_IMAGE_3320_END_INCLUDE_IMAGE_
MRI GRE left frontal meningioma This is a GRE sequence MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:32 jdmiles _INCLUDE_IMAGE_3321_END_INCLUDE_IMAGE_
MRI T1 Gad meningioma This is a gadolinium contrasted T1-weighted MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:32 jdmiles _INCLUDE_IMAGE_3322_END_INCLUDE_IMAGE_
MRI T1 meningioma This is a non-contrasted T1-weighted MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:33 jdmiles _INCLUDE_IMAGE_3323_END_INCLUDE_IMAGE_
MRI T2 meningioma This is a T2-weighted MRI of the brain, showing a left frontal meningioma. 08/07/2013 @ 13:34 jdmiles _INCLUDE_IMAGE_3324_END_INCLUDE_IMAGE_
MRI DWI fluent aphasia This is a diffusion-weighted MRI image of the brain. The bright areas in this image represent regions of recent cerebral infarction. This person suffers from fluent aphasia (that is, Wernicke type aphasia) as a result of the ischemic stroke. 08/07/2013 @ 13:49 jdmiles _INCLUDE_IMAGE_3325_END_INCLUDE_IMAGE_
CT left PCA stroke A non-contrasted head CT showing a recent left posterior cerebral artery (PCA) infarction. 08/07/2013 @ 14:10 jdmiles _INCLUDE_IMAGE_3326_END_INCLUDE_IMAGE_
MRI DWI left ACA stroke A diffusion-weighted MRI image showing an acute left anterior cerebral artery (ACA) infarction. 08/07/2013 @ 14:11 jdmiles _INCLUDE_IMAGE_3327_END_INCLUDE_IMAGE_
CT dense MCA highlighted The green area in this image highlights the middle cerebral artery. 08/07/2013 @ 14:20 jdmiles _INCLUDE_IMAGE_3328_END_INCLUDE_IMAGE_
CT left ICH A CT of the head showing a large left intracerebral hemorrhage (ICH or intraparenchymal hemorrhage). 08/07/2013 @ 14:30 jdmiles _INCLUDE_IMAGE_3329_END_INCLUDE_IMAGE_
MRI T2 Virchow Robin spaces A T2-weighted MRI of normal brain. The bright foci seen in the parenchyma are Virchow-Robin spaces. Virchow-Robin spaces are normal spaces surrounding the walls of blood vessels. The spaces are filled with cerebrospinal fluid (CSF), which is why they appear bright on T2 MRI. 08/07/2013 @ 14:37 jdmiles _INCLUDE_IMAGE_3330_END_INCLUDE_IMAGE_
MRI w GAD - enhancing meninges This is a gadolinium-enhanced T1-weighted MRI of the brain. The image shows an unusual enhancement of the pachymeninges, which may be seen in meningitis. 08/07/2013 @ 14:43 jdmiles _INCLUDE_IMAGE_3331_END_INCLUDE_IMAGE_
MRI w GAD normal brain This is a gadolinium-enhanced T1-weighted MRI of normal brain. 08/07/2013 @ 14:44 jdmiles _INCLUDE_IMAGE_3332_END_INCLUDE_IMAGE_
MRI ADC acute right MCA stroke This is an ADC sequence MRI of the brain. The dark portion on the left of the image corresponds to a bright area on diffusion weighted imaging (DWI). This person has suffered an acute ischemic stroke in the right MCA territory. 08/07/2013 @ 14:54 jdmiles _INCLUDE_IMAGE_3333_END_INCLUDE_IMAGE_
MRI - Enhancing Meninges with ar The white rim around the parenchyma of the brain are the pachymeninges, which show an unusual degree of enhancement in this image. This may be seen in meningitis. 08/07/2013 @ 15:45 jdmiles _INCLUDE_IMAGE_3334_END_INCLUDE_IMAGE_
MRI Fluent Aphasia with arrow The unnecessarily large green arrow points to the area of acute infarction, which shows up as bright on diffusion-weighted MRI imaging. 08/07/2013 @ 15:49 jdmiles _INCLUDE_IMAGE_3335_END_INCLUDE_IMAGE_
Alexia without agraphia resultin The unnecessarily large green arrow points to the area of infarction. The infarcted region appears pale on this FLAIR sequence MRI. This person has had a stroke in the territory of the left posterior cerebral artery (PCA). 08/07/2013 @ 15:53 jdmiles _INCLUDE_IMAGE_3336_END_INCLUDE_IMAGE_
ACA infarct sagittal labeled The region labeled in green approximates the area of brain damaged in this person's anterior cerebral artery infarction. 08/07/2013 @ 16:19 jdmiles _INCLUDE_IMAGE_3337_END_INCLUDE_IMAGE_
Horizontal slice of gross brain This is a slice of brain. The following features are labeled: 1) left frontal lobe, 2) right frontal lobe, 3) cortex (gray matter), 4) white matter, 5) left temporal lobe, 6) left occipital lobe, 7) left occipital lobe, 8) genu of the corpus callosum, 9) splenium of the corpus callosum, 10) head of the caudate, 11) thalamus 08/07/2013 @ 23:42 jdmiles _INCLUDE_IMAGE_3338_END_INCLUDE_IMAGE_
CT SAH This non-contrast head CT shows the presence of subarachnoid blood. 09/07/2013 @ 12:14 jdmiles _INCLUDE_IMAGE_3339_END_INCLUDE_IMAGE_
Olfactory nerves and olfactory b The unnecessarily large green arrow points to the right olfactory bulb, at the distal terminus of the olfactory nerve. 09/07/2013 @ 15:00 jdmiles _INCLUDE_IMAGE_3340_END_INCLUDE_IMAGE_
Eustachi Nervous System Bartolomeo Eustachi (1520?-1574): Tabulae anatomicae clarissimi viri, 1722. Courtesy of Wikimedia Commons. 30/07/2013 @ 13:10 jdmiles _INCLUDE_IMAGE_3341_END_INCLUDE_IMAGE_
CT subarachnoid hemorrhage This is a non-contrast head CT. It shows subarachnoid blood over the left frontal lobe. The large hyperdense lesion in the left frontal lobe is an aneurysm. 30/08/2013 @ 23:12 jdmiles _INCLUDE_IMAGE_3342_END_INCLUDE_IMAGE_
CT subarachnoid hemorrhage This is a non-contrast head CT. It shows subarachnoid blood over the left frontal lobe. The large hyperdense lesion in the left frontal lobe is an aneurysm. 30/08/2013 @ 23:13 jdmiles _INCLUDE_IMAGE_3343_END_INCLUDE_IMAGE_
CT subarachnoid hemorrhage This is a non-contrast head CT. It shows subarachnoid blood over the left frontal lobe. The large hyperdense lesion in the left frontal lobe is an aneurysm. 30/08/2013 @ 23:14 jdmiles _INCLUDE_IMAGE_3344_END_INCLUDE_IMAGE_
Superior The unnecessarily large green arrow in this image points in the superior direction. Compare this to the rostral-caudal axis. 31/08/2013 @ 14:47 jdmiles _INCLUDE_IMAGE_3345_END_INCLUDE_IMAGE_
Inferior The unnecessarily large red arrow in this image points in the inferior direction. Contrast this to the rostral-caudal axis. 31/08/2013 @ 14:50 jdmiles _INCLUDE_IMAGE_3346_END_INCLUDE_IMAGE_
Superior-Inferior whole body The red bar indicates the direction of the superior-inferior axis. Note that, unlike the rostral-caudal axis, the direction of the superior-inferior axis does not turn in the brain. The arrow points in the superior direction. 31/08/2013 @ 15:05 jdmiles _INCLUDE_IMAGE_3347_END_INCLUDE_IMAGE_
Cell Membrane Detailed Diagram B A diagram of the plasma membrane of a cell. The phospholipid bilayer separates the cytoplasm (below) from the extracellular fluid (above). This image is created by Wikimedia Commons user LadyofHats Mariana Ruiz, who released it into the public domain. 01/09/2014 @ 2:57 jdmiles _INCLUDE_IMAGE_3348_END_INCLUDE_IMAGE_
Cell Membrane Detailed Diagram L A diagram of the plasma membrane of a cell. The phospholipid bilayer separates the cytoplasm (below) from the extracellular fluid (above). This image is created by Wikimedia Commons user LadyofHats Mariana Ruiz, who released it into the public domain. 01/09/2014 @ 3:27 jdmiles _INCLUDE_IMAGE_3349_END_INCLUDE_IMAGE_
Neuron with oligodendrocyte and An illustration of how oligodendrocytes in the central nervous system wrap processes around the axons of neurons to form myelin. Public Domain image created by wikimedia commons user LadyofHats. http://en.wikipedia.org/wiki/File:Neuron_with_oligodendrocyte_and_myelin_sheath.svg 01/09/2014 @ 19:23 jdmiles _INCLUDE_IMAGE_3350_END_INCLUDE_IMAGE_
Cell Membrane Detailed Diagram L A diagram of the plasma membrane of a cell. The phospholipid bilayer separates the cytoplasm (below) from the extracellular fluid (above). This image is created by Wikimedia Commons user LadyofHats Mariana Ruiz, who released it into the public domain. 01/09/2014 @ 20:37 jdmiles _INCLUDE_IMAGE_3351_END_INCLUDE_IMAGE_
cell potassium gradient An illustration of the concentration gradient of potassium ions across the cell membrane. 01/09/2014 @ 20:52 jdmiles _INCLUDE_IMAGE_3352_END_INCLUDE_IMAGE_
cell sodium gradient An illustration of the concentration gradient of sodium ions across the cell membrane. 01/09/2014 @ 20:53 jdmiles _INCLUDE_IMAGE_3353_END_INCLUDE_IMAGE_
cell sodium and potassium An illustration of the contrasting concentration gradients of sodium and potassium across a cell membrane. 01/09/2014 @ 20:54 jdmiles _INCLUDE_IMAGE_3354_END_INCLUDE_IMAGE_
nernst equation The nernst equation. R is the universal gas constant: R = 8.314472 E15 Joules per mole Kelvin. T is absolute temperature, in Kelvin. Z is charge (e.g., -1 for Cl or +2 for Ca). F is the Faraday constant, the number of coulombs per mole of electrons: F = 9.64853399 E24×104 C/mol. One volt = 1 joule per coulomb. 01/09/2014 @ 20:56 jdmiles _INCLUDE_IMAGE_3355_END_INCLUDE_IMAGE_
Nernst sodium Applying the Nernst equation to sodium. 01/09/2014 @ 20:57 jdmiles _INCLUDE_IMAGE_3356_END_INCLUDE_IMAGE_
Nernst potassium Applying the Nernst equation to potassium. 01/09/2014 @ 20:58 jdmiles _INCLUDE_IMAGE_3357_END_INCLUDE_IMAGE_
Goldman Equation The Goldman-Hodgkin-Katz equation. 01/09/2014 @ 20:59 jdmiles _INCLUDE_IMAGE_3358_END_INCLUDE_IMAGE_
Sodium-Potassium ATPase An illustration of the action of the sodium-potassium ATPase. This transmembane protein uses energy captured from the breakdown of ATP to maintain the concentration gradients of sodium and potassium ions across the plasma membrane. For every ATP consumed, 3 sodium ions are pumped out of the cell, and 2 potassium ions pumped into the cell. Public domain image created by wikimedia commons user LadyofHats. http://en.wikipedia.org/wiki/File:Scheme_sodium-potassium_pump-en.svg 01/09/2014 @ 21:04 jdmiles _INCLUDE_IMAGE_3359_END_INCLUDE_IMAGE_
Gyrus The structure outlined in green is a gyrus. 06/09/2014 @ 21:57 jdmiles _INCLUDE_IMAGE_3360_END_INCLUDE_IMAGE_
White Matter The unnecessarily large green arrow points to white matter tracts in this horizontal section of human brain. White matter consists mostly of axons, with few neuron cell bodies. The myelin surrounding the axons gives it the white appearance. 07/09/2014 @ 0:00 jdmiles _INCLUDE_IMAGE_3361_END_INCLUDE_IMAGE_
Anterior Nucleus of the Thalamus The unnecessarily large green arrow indicates the anterior nucleus of the thalamus in this coronal section of normal gross brain. 27/11/2022 @ 1:01 jdmiles _INCLUDE_IMAGE_3362_END_INCLUDE_IMAGE_
Anterior Nucleus of the Thalamus The unnecessarily large green arrow indicates the anterior nucleus of the thalamus in this coronal section of normal gross brain. 27/11/2022 @ 1:01 jdmiles _INCLUDE_IMAGE_3363_END_INCLUDE_IMAGE_
Anterior Nucleus of the Thalamus The unnecessarily large green arrow indicates the anterior nucleus of the thalamus in this coronal section of normal gross brain. 27/11/2022 @ 1:01 jdmiles _INCLUDE_IMAGE_3364_END_INCLUDE_IMAGE_
Anterior Nucleus of the Thalamus The unnecessarily large green arrow indicates the anterior nucleus of the thalamus in this coronal section of normal gross brain. 27/11/2022 @ 1:29 jdmiles _INCLUDE_IMAGE_3365_END_INCLUDE_IMAGE_
Medial View Normal Gross Brain A medial view of a normal gross brain, bisected at the midline. 06/08/2023 @ 13:50 jdmiles _INCLUDE_IMAGE_3366_END_INCLUDE_IMAGE_

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