208 15 216MB
English Pages 188 Year 2011
Atlas of the
NEONATAL RAT BRAIN
K11857.indb 1
10/26/10 4:31:10 PM
Atlas of the
NEONATAL RAT BRAIN Renuka Ramachandra Thyagarajan Subramanian
Boca Raton London New York
CRC Press is an imprint of the Taylor & Francis Group, an informa business
K11857.indb 3
10/26/10 4:31:10 PM
CRC Press Taylor & Francis Group 6000 Broken Sound Parkway NW, Suite 300 Boca Raton, FL 33487-2742 © 2011 by Taylor and Francis Group, LLC CRC Press is an imprint of Taylor & Francis Group, an Informa business No claim to original U.S. Government works Printed in the United States of America on acid-free paper 10 9 8 7 6 5 4 3 2 1 International Standard Book Number: 978-1-4398-4012-2 (Hardback) This book contains information obtained from authentic and highly regarded sources. Reasonable efforts have been made to publish reliable data and information, but the author and publisher cannot assume responsibility for the validity of all materials or the consequences of their use. The authors and publishers have attempted to trace the copyright holders of all material reproduced in this publication and apologize to copyright holders if permission to publish in this form has not been obtained. If any copyright material has not been acknowledged please write and let us know so we may rectify in any future reprint. Except as permitted under U.S. Copyright Law, no part of this book may be reprinted, reproduced, transmitted, or utilized in any form by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying, microfilming, and recording, or in any information storage or retrieval system, without written permission from the publishers. For permission to photocopy or use material electronically from this work, please access www.copyright.com (http://www.copyright.com/) or contact the Copyright Clearance Center, Inc. (CCC), 222 Rosewood Drive, Danvers, MA 01923, 978-750-8400. CCC is a not-for-profit organization that provides licenses and registration for a variety of users. For organizations that have been granted a photocopy license by the CCC, a separate system of payment has been arranged. Trademark Notice: Product or corporate names may be trademarks or registered trademarks, and are used only for identification and explanation without intent to infringe. Visit the Taylor & Francis Web site at http://www.taylorandfrancis.com and the CRC Press Web site at http://www.crcpress.com
K11857.indb 4
10/26/10 4:31:10 PM
Dedication
We dedicate this scientific work to our parents who inspired us to follow our interests and provided unwavering support to us during all our struggles and successes.
K11857.indb 5
10/26/10 4:31:10 PM
Contents
Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi About the Authors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xv Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xix References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxiii
Section Iâ•… P-1 Brain Coronal Plates (Figures 1 through 30) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Sagittal Plates (Figures 31 through 44) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Section IIâ•… P-7 Brain Coronal Plates (Figures 45 through 71) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Sagittal Plates (Figures 72 through 95) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76
Section IIIâ•… P-14 Brain Coronal Plates (Figures 96 through 136) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103 Sagittal Plates (Figures 137 through 157) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 144
vii
K11857.indb 7
10/26/10 4:31:10 PM
Preface
T
he rat brain develops enormously after birth and the changes are very rapid. We have attempted to prepare a photographic atlas representing the neonatal rat brain at postnatal (P) days P-1, P-7, and P-14. This atlas illustrates the main anatomical features at these three ages. It will serve the needs of researchers and students who are interested in postnatal development, slice cultures, developmental disorders, neuroanatomy, neuropharmacology, neurobiochemistry, and neuropathology of rats. We hope that this atlas will provide a template for comparative studies with other species and numerous animal models of brain pathology in rats.
ix
K11857.indb 9
10/26/10 4:31:10 PM
Acknowledgments
W
e are grateful to the following individuals for making this atlas work possible through their moral, emotional, technical, and scientific support: David Good, Keith Elmslie, Kala Venkiteswaran, Sriram S. Shanmugavelandy, Christopher Lieu, Anand Rao, Mathew Berk, Timothy Gilmour, and Barbara Norwitz. We also acknowledge financial support for this work from research grants to Thyagarajan Subramanian from the National Institutes of Health (NS42402), Commonwealth of Pennsylvania Tobacco Settlement Biomedical Research Fund, and the Penn State University Brain Repair Research Fund. We also thank the U.S. Department of Health for the Physician Scientist Research Award.
xi
K11857.indb 11
10/26/10 4:31:11 PM
About the Authors
Renuka Ramachandra, is a postdoctoral researcher at the AT Still University in Kirksville, Missouri. She received her PhD degree in neurophysiology from India and her initial postdoctoral training at the National Brain Research Centre in India, a premier neuroscience institute. Dr. Ramachandra worked on the effect of barrel cortex lesions in rats and on the effects of drugs on the developing rat brain. She also worked as a research scientist in the embryonic stem cell group at Reliance Life Sciences, Mumbai, India, where she differentiated human embryonic stem cells into oligodendrocytes for spinal cord injury treatment. She went on to use her skills and knowledge of basic electrophysiology, brain anatomy, and histological techniques to develop an in vitro basal ganglia slice culture model in the Department of Neurology at Penn State College of Medicine. This model is used to study in vitro cell transplantation. During the development of this model, she recognized the need for a neonatal rat brain atlas. Dr. Ramachandra created this atlas for her project and decided to publish it so that it would be available to all neuroscientists and students who need one. Thyagarajan Subramanian is a professor of neurology and neural and behavioral sciences at Penn State University Hershey Medical Center in Hershey, Pennsylvania. Dr. Subramanian received his initial medical training from Calicut Medical College in Calicut, India and his graduate training in developmental neurobiology and neural cell transplantation under the guidance of Dr. R. D. Lund at the University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania. He completed his neurology residency at the University of Pittsburgh followed by fellowship training in neurological research and movement disorders at Emory University in Atlanta, Georgia under the guidance of Drs. Mahlon R. DeLong, Ray L. Watts, and Roy A. E. Bakay. Dr. Subramanian’s research interests are in developmental neurobiology, basal ganglia physiology, cell transplantation, gene therapy, and experimental neurotherapeutics. Using a variety of animal models, cell and tissue culture techniques, in vivo electrophysiology, and detailed histology, Dr. Subramanian and co-workers have described several novel findings in central nervous system (CNS) response to transplantation. Among his major scientific contributions are his work on creating an MRI based brain atlas of the Rhesus monkey, description of the effects of immunomodulation on host responses to CNS xenografting, and the description of the use of retinal pigment epithelial cell grafts for CNS repair. Dr. Subramanian has directed the medical neuroscience course for medical and graduate students and trained numerous medical students, as well as neurology, neurosurgery, physiatry, psychiatry, and geriatric residents. He has served as the education committee chair of the American Society for Neural Therapy and Repair (ASNTR) and has trained numerous scientists and physicians who now work as independent investigators in many institutions all over the world. xiii
K11857.indb 13
10/26/10 4:31:11 PM
Introduction
R
odents have frequently been used to model a number of neurological disorders. The neonatal rat in particular has been used in many developmental studies and extensively for preparing slice culture models that permit the study of interactions among different regions of the brain during development. Neonatal rats have also been used as models for neurotoxicological screening and mechanistic studies (Becker and Liu, 2006; Noraberg, 2004). During our attempts to develop a neonatal rat brain slice culture model of basal ganglia development, we realized that there was no published neonatal rat brain atlas. This took us by surprise as we knew of quite a few adult rat brain atlases. To remedy this situation, we developed this atlas showing representative development of the rat brain between postnatal day 1 (P-1) and postnatal day 14 (P-14). A number of animals from each litter were euthanized on the designated postnatal dates and the brains were sectioned, stained, photographed, and annotated to prepare this atlas. This atlas is an effort to provide a guide to the neonatal rat brain. It contains a comprehensive set of histological images of the newborn rat brain from P-1, P-7, and P-14. Although we prepared brain sections for all the ages from P-1 to P-14, we have chosen to present these three ages as representative to provide a template of developmental maturation of the neonatal rat brain at various stages. Further, the inclusion of every age between P-1 and P-14 would needlessly add pages to this atlas without adding value. Additional images will be made available as electronic resources for individuals who seek images not represented in this volume. P-0 was covered earlier in The Atlas of the Developing Rat Nervous System€(Paxinos et al., 1994), so we started at P-1, proceeded to P-7 (the midpoint in neonatal development), and concluded at P-14. This atlas contains both coronal and sagittal sections for all the three age groups. The P-1 section contains 30 coronal plates and 14 sagittal plates; P-7 includes 27 coronal plates and 24 sagittal plates. The final P-14 section shows 41 coronal plates and 21 sagittal plates. Each set consists of contiguous sections from individual animals with no substitutions or omissions. The sections were prepared carefully to ensure that their orientations were maintained and were consistently of the highest quality. The selections were based on the structural variability represented. Care was taken to minimize tears and distortions. Fixation and staining cause minimal amounts of shrinkage and damage to tissues. However, we feel that the structural details are well preserved. This atlas has certain unique features. The sections are Nissl stained with cresyl violet—the most common staining technique used in the neurosciences. Future editions will include specific immunostains and special stains in the same format as these Nissl stains. The photomicrographs achieve high resolution and clarity. The structures are directly labeled on the images, making it easier for readers to correlate data. The electronic version will allow labels to be removed so the atlas can be used as a teaching tool. xv
K11857.indb 15
10/26/10 4:31:11 PM
xvi
Atlas of the Neonatal Rat Brain
Animal Preparation Sprague-Dawley rat pups were used for this work. Pregnant dams from Charles River Laboratories (Wilmington, MA) were received on day 13.5 of gestation and housed in standard laboratory conditions, with 12-hour dark and light cycles and administration of food and water ad libitum. All procedures complied with guidelines issued by the National Institutes of Health and were approved by Penn State University’s Institutional Animal Care and Welfare Committee. After birth, rat pups ranging in age from P-1 to P-14 were sacrificed at the same time every day. The sexes of the newborns were not taken into consideration. The neonates were decapitated and the brains were removed carefully and postfixed in 4% paraformaldehyde for 3 to 4 days. This allowed preservation of the brain structures and made it easier to isolate the brains from the delicate skulls. The brains were then cryoprotected in 15% sucrose in phosphate buffered saline (PBS) and then in 30% sucrose in PBS. The brains were positioned and frozen on sucrose blocks made on the base of a sliding microtome that was then used to cut the brains at 50-µm thickness for both coronal and sagittal views. For sagittal sections, each brain was cut along the midline carefully and placed with the midline facing the block. Care was taken to retain and mount every section cut. We noted all missing sections so that we could calculate the correct distance from the midline for the sagittal sections.
Section Processing Every section was mounted on polylysine-coated slides, air dried, and stained for Nissl bodies using cresyl violet. In short, the slides with the sections were passed through the solutions for 3 minutes each in the following order except where noted: 100% ethanol, 100% ethanol, 95% ethanol, 75% ethanol, water (single dip), cresyl violet (3 to 4 minutes), water, 75% ethanol, 95% ethanol, 100% ethanol, 100% ethanol, and xylene. The slides were cover slipped using DPX mounting media and left to dry for 2 days before image capture. To make 500 ml of 0.5% cresyl violet (pH about 3.9), we mixed 2.5 g cresyl echt violet, 300 mL water, 30 mL 0.1 M sodium acetate (13.6 g granular sodium acetate in 92 mL water), and 170 mL 1.0 M acetic acid (29 mL glacial acetic acid added to 471 mL water). This solution was mixed at least 7 days on a magnetic stirrer and then filtered.
Imaging Using Neurolucida software (Version 8, MBF Biosciences), photomicrographs of all the serial sections were captured. We used the virtual slice feature of Neurolucida that allowed us to capture the images at 4× magnification in smaller blocks and finally merge them to yield a holistic image of an entire section. In digital format, the images can be zoomed in without losing much of the detail. The images were post processed in Adobe Photoshop to clear up the background. No changes were made to the actual photomicrographic images captured.
K11857.indb 16
10/26/10 4:31:11 PM
Introduction
xvii
Labeling The images were labeled based on the nomenclature used by Paxinos, with some modifications to suit the need of the atlas. For the P-1 rat brain, we labeled most structures using The Atlas of the Developing Rat Nervous System (Paxinos et al., 1994). Because the P-7 and P-14 brain structures are similar to those of adult rat brains, we followed the nomenclature of The Rat Brain in Stereotaxic Coordinates (Paxinos et al., 1998). The labeling of the respective structures was done on the actual photographic images rather than on the classic line diagrams that most atlases utilize. This allows the user to correlate the structures and their names easily. We decided not to demarcate the areas on the brain as the brain is a very plastic structure and the areas could not be distinguished from each other easily. The major parts of the brain were labeled via Adobe Photoshop without the inclusion of minor details. We used cresyl violet stain to identify the structures. This posed limitations on identifying some of the smaller nuclei that required special staining. Most of the structures were identified based on the proximity to the surrounding structures and outstanding landmarks; for example, striatum was identified based on its patchy matrix and close proximity to the corpus callosum. The most difficult structures to identify were the thalamic nuclei in the P-1 brains. We restricted our labeling to major nuclei only to avoid confusion. Since the brain develops very quickly in the first few days after birth, it is very difficult to demarcate the developing nuclei without in-depth knowledge of that area of research. The other structure that posed certain limitations in labeling was the cerebellum of the P-1 brain. The lobules are very different from those of the adult brain. We tried to keep most of the sagittal brain sections intact. However, we encountered a few sections in which the cerebellum could not be kept intact with the rest of the brain. The distances between adjacent plates of the sagittal sections were estimated from the midline using the section thickness; the midline was considered the absolute zero. This photographic atlas can assist neuroscientists and students to identify and understand the developing rat brain structure. However, it does not cover stereotaxic coordinates.
K11857.indb 17
10/26/10 4:31:11 PM
Abbreviations
Numbers 1 through 10 aca Acb AcbC AcbSh AICtx Alv AM amy Amy AICtx AO APit apons APT AT AuCtx AV Bamy BLA CA1 CA2 CA3 cc Cer cer Cernu CG CgCtx CM Cop Cp CPu Crus1 Crus2 Ctx Cu D3V DG Dhippo DLG DR DTg E Ec Ent EPI
Cerebellar lobules Anterior commissure Accumbens nucleus Accumbens nucleus core Accumbens nucleus shell Agranular insular cortex Alveus of hippocampus Anteromedial thalamus Amygdala Amygdaloid nuclei Agranular insular cortex Anterior olfactory bulb Anterior pituitary gland Anterior pons Anterorpretectal nuclei Anterior thalamus Auditory cortex Anteroventral thalamus Basal amygdala Basolateral amygdala CA1 field of hippocampus CA2 field of hippocampus CA3 field of hippocampus Corpus callosum Cerebellar peduncle Cerebellum Cerebellar nuclei Central gray matter Cingulate cortex Central medial thalamic nuclei Copula of pyramis Caudate peduncle Caudate putamen Crus 1 of ansiform lobule Crus 2 of ansiform lobule Cortex Cuneate nucleus Dorsal third ventricle Dentate gyrus Dorsal hippocampal formation Dorsolateral geniculate nuclei Dorsal raphe nuclei Dorsal tegmental nuclei Ependyma and subependymal layer External capsule Entorhinal cortex External plexiform layer, olfactory bulb
xix
K11857.indb 19
10/26/10 4:31:11 PM
xx
Atlas of the Neonatal Rat Brain f fi fmi fmj FrCtx gcc GI CN GP GrO hc Hf Hfor Hypo IAD IC Ic InsCtx IPL Lamy Lat LD LDVL Lent LGP LPAG LPLR LPM LS LT LTh LV MCtx MD MDTh Med MEnt MEPD MGD MGN MGV Mret MT neoCtx obn OcCtx Opt Orb OV PAG Pal pcf Pi Pir Pit PLCtx Plf PM
K11857.indb 20
Fornix Fimbria of hippocampus Forceps minor of corpus callosum Forceps major of corpus callosum Frontal cortex Genu of corpus callosum Glomerular layer, olfactory bulb Geniculate nucleus Globus pallidus Granular cell layer, olfactory bulb Hippocampal commissure Hippocampal fissure Hippocampal formation Hypothalamus Interanterodorsal thalamic nuclei Inferior colliculus Internal capsule Insular cortex Internal plexiform layer, olfactory bulb Lateral amygdala Lateral cerebellar nuclei Laterodorsal thalamic nuclei Laterodorsoventral thalamus Lateral entorhinal cortex Lateral globus pallidus Lateral periaqueductal gray matter Lateroposterior thalamic nuclei Lateroposteromedial thalamic nuclei Lateral septal nuclei Lateral thalamus Lateral thalamic nucleus Lateral ventricle Motor cortex Mediodorsal thalamic nuclei Mediodorsal thalamus Medulla Medial entorhinal cortex Medial amygdala nuclei Medial geniculate nuclei, dorsal Medial geniculate nuclei Medial geniculate nuclei, ventral Medullary reticular formation Medial thalamus Neocortex Olfactory bulb neuroepithelium Occipital cortex Optic tract Orbital cortex Olfactory ventricle Periaqueductal gray matter Pallidum Precommissural fornix Pineal gland Piriform cortex Pituitary gland Prelimbic cortex Posterolateral fissure Paramedian lobule
10/26/10 4:31:11 PM
Abbreviations Pn Po PrCtx PrS PtACtx PTg PTh RsCtx S SC SCtx Sim SN SNc SNr Spn STn Sub SubG Th VCtx Ve VH Vhippo VL VM VO VP VPL VPM VT VTh ZI
K11857.indb 21
xxi
Pontine nuclei Posterior thalamic nuclei Parietal cortex Presubiculum Parietal association cortex Posterior tegmental nuclei Posterior thalamus Retrospenial cortex Subiculum Superior colliculus Somatosensory cortex Simple lobule Substantia nigra Substantia nigra compacta Substantia nigra reticulata Spinal nuclei Subthalamic nuclei Submedial thalamic nucleus Subgeniculate nucleus Thalamus Visual cortex Vestibular nuclei Ventral hypothalamus Ventral hippocampal formation Ventrolateral thalamic nuclei Ventromedial thalamus Ventral orbital cortex Ventral pallidum Ventroposterolateral thalamic nuclei Ventroposteromedial thalamic nuclei Ventral thalamus Ventral thalamic nucleus Zona incerta
10/26/10 4:31:11 PM
References
Altman, J. and Bayer, S. (1995). The Atlas of Prenatal Rat Brain Development. Boca Raton, FL: CRC Press. Becker, S. and Liu, X. (2006). Evaluation of the utility of brain slice methods to study brain penetration. Drug Metab Dispos 34: 855–861. Noraberg, J. (2004). Organotypic brain slice cultures: An efficient and reliable method for neurotoxicological screening and mechanistic studies. Altern Lab Anim 32: 329–337. Paxinos, G. and Watson, C. (1998). The Rat Brain in Stereotaxic Coordinates. Fourth Edition. San Diego: Elsevier Academic Press. Paxinos, G., Ashwell, K.W.S., and Tork, I. (1994). The Atlas of the Developing Rat Nervous System. San Diego: Elsevier Academic Press.
xxiii
K11857.indb 23
10/26/10 4:31:11 PM
Section I
P-1 Brain
K11857.indb 1
10/26/10 4:31:11 PM
Coronal Plates
3
Coronal Plates
Figure 1 P-1, c1 EPI = External plexiform layer, olfactory bulb GI = Glomerular layer, olfactory bulb Obn = Olfactory bulb neuroepithelium OV = Olfactory ventricle
K11857.indb 3
10/26/10 4:31:12 PM
4
Atlas of the Neonatal Rat Brain
Figure 2 P-1, c2 AICtx = Agranular insular cortex AO = Anterior olfactory bulb CgCtx = Cingulate cortex FrCtx = Frontal cortex Orb = Orbital cortex OV= Olfactory ventricle
K11857.indb 4
10/26/10 4:31:12 PM
Coronal Plates
5
Figure 3 P-1, c3 AICtx = Agranular insular cortex AO = Anterior olfactory bulb CgCtx = Cingulate cortex FrCtx = Frontal cortex Orb = Orbital cortex OV = Olfactory ventricle
K11857.indb 5
10/26/10 4:31:13 PM
6
Atlas of the Neonatal Rat Brain
Figure 4 P-1, c4 AICtx = Agranular insular cortex CgCtx = Cingulate cortex fmi = Forceps minor of corpus callosum FrCtx = Frontal cortex Pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 6
10/26/10 4:31:14 PM
Coronal Plates
7
Figure 5 P-1, c5 aca = Anterior commissure Acb = Accumbens nucleus CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule FrCtx = Frontal cortex LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 7
10/26/10 4:31:14 PM
8
Atlas of the Neonatal Rat Brain
Figure 6 P-1, c6 aca = Anterior commissure Acb = Accumbens nucleus CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule FrCtx = Frontal cortex LS = Lateral septal nuclei LV = Lateral ventricle Pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 8
10/26/10 4:31:15 PM
Coronal Plates
9
Figure 7 P-1, c7 aca = Anterior commissure Acb = Accumbens nucleus CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule FrCtx = Frontal cortex gcc = Genu of corpus callosum LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 9
10/26/10 4:31:16 PM
10
Atlas of the Neonatal Rat Brain
Figure 8 P-1, c8 aca = Anterior commissure Acb = Accumbens nucleus AcbSh = Accumbens nucleus shell CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule FrCtx = Frontal cortex gcc = Genu of corpus callosum LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 10
10/26/10 4:31:16 PM
Coronal Plates
Figure 9 P-1, c9 aca = Anterior commissure Acb = Accumbens nucleus AcbSh = Accumbens nucleus shell CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule
K11857.indb 11
11
FrCtx = Frontal cortex gcc = Genu of corpus callosum LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
10/26/10 4:31:17 PM
12
Atlas of the Neonatal Rat Brain
Figure 10 P-1, c10 aca = Anterior commissure CA3 = CA3 field of hippocampus CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule FrCtx = Frontal cortex gcc = Genu of corpus callosum
K11857.indb 12
GP = Globus pallidus hc = Hippocampal commissure InsCtx = Insular cortex LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
10/26/10 4:31:18 PM
Coronal Plates
Figure 11 P-1, c11 aca = Anterior commissure CA3 = CA3 field of hippocampus CPu- = Caudate putamen DG = Dentate gyrus ec = external capsule f = Fornix FrCtx = Frontal cortex
K11857.indb 13
13
cc = Corpus callosum GP = Globus pallidus insCtx = Insular cortex LS = Lateral septal nuclei LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
10/26/10 4:31:18 PM
14
Atlas of the Neonatal Rat Brain
Figure 12 P-1, c12 Amy = Amygdaloid nuclei ATh = Anterior thalamus CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 14
ec = external capsule f = Fornix FrCtx = Frontal cortex GP = Globus pallidus LV = Lateral ventricle pir = Piriform cortex PrCtx = Parietal cortex
10/26/10 4:31:19 PM
Coronal Plates
Figure 13 P-1, c13 Amy = Amygdaloid nuclei ATh = Anterior thalamus CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus CPu = Caudate putamen
K11857.indb 15
15
DG = Dentate gyrus F = Fornix FrCtx = Frontal cortex pir = Piriform cortex PrCtx = Parietal cortex
10/26/10 4:31:20 PM
16
Atlas of the Neonatal Rat Brain
Figure 14 P-1, c14 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus CPu = Caudate putamen DG = Dentate gyrus ec = external capsule F = Fornix FrCtx = Frontal cortex
K11857.indb 16
GP = Globus pallidus Hypo = Hypothalamus LTh = Lateral thalamus LV = Lateral ventricle MDTh = Mediodorsal thalamus pir = Piriform cortex PrCtx = Parietal cortex VTh = Ventral thalamus
10/26/10 4:31:21 PM
Coronal Plates
Figure 15 P-1, c15 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus FrCtx = Frontal cortex Hypo = Hypothalamus LTh = Lateral thalamus
K11857.indb 17
17
LV = Lateral ventricle MDTh = Mediodorsal thalamus pir = Piriform cortex PrCtx = Parietal cortex VTh = Ventral thalamus ZI = Zona incerta
10/26/10 4:31:21 PM
18
Atlas of the Neonatal Rat Brain
Figure 16 P-1, c16 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus FrCtx = Frontal cortex LTh = Lateral thalamus MDTh = Mediodorsal thalamus pir = Piriform cortex OcCtx = Occipital cortex
K11857.indb 18
10/26/10 4:31:22 PM
Coronal Plates
19
Figure 17 P-1, c17 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus OcCtx = Occipital cortex Pi = Pineal gland SC = Superior colliculus SNr = Substantia nigra reticulata ZI = Zona incerta
K11857.indb 19
10/26/10 4:31:23 PM
20
Atlas of the Neonatal Rat Brain
Figure 18 P-1, c18 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cp = Caudate peduncle DG = Dentate gyrus Ent = Entorhinal cortex OcCtx = Occipital cortex SC = Superior colliculus SNr = Substantia nigra reticulata ZI = Zona incerta
K11857.indb 20
10/26/10 4:31:24 PM
Coronal Plates
21
Figure 19 P-1, c19 CG = Central gray matter DR = Dorsal raphe nuclei Pn = Pontine nuclei SC = Superior colliculus
K11857.indb 21
10/26/10 4:31:25 PM
22
Atlas of the Neonatal Rat Brain
Figure 20 P-1, c20 CG = Central gray matter SC = Superior colliculus
K11857.indb 22
10/26/10 4:31:26 PM
Coronal Plates
23
Figure 21 P-1, c21 PAG = Periaqueductal gray matter SC = Superior colliculus
K11857.indb 23
10/26/10 4:31:27 PM
24
Atlas of the Neonatal Rat Brain
Figure 22 P-1, c22 DTg = Dorsal tegmental nuclei SC = Superior colliculus
K11857.indb 24
10/26/10 4:31:28 PM
Coronal Plates
25
Figure 23 P-1, c22 IC = Inferior colliculus Med = Medulla
K11857.indb 25
10/26/10 4:31:29 PM
26
Atlas of the Neonatal Rat Brain
Figure 24 P-1, c24 Cer = Cerebellar peduncle CG = Central gray matter DTg = Dorsal tegmental nuclei PTg = Posterior tegmental nuclei IC = Inferior colliculus SC = Superior colliculus
K11857.indb 26
10/26/10 4:31:30 PM
Coronal Plates
27
Figure 25 P-1, c25 Cernu = Cerebellar nuclei IC = Inferior colliculus Med = Medulla Ve = Vestibular nucleus
K11857.indb 27
10/26/10 4:31:31 PM
28
Atlas of the Neonatal Rat Brain
Figure 26 P-1, c26 Cernu = Cerebellar nuclei IC = Inferior colliculus Med = Medulla Ve = Vestibular nuclei
K11857.indb 28
10/26/10 4:31:31 PM
Coronal Plates
29
Figure 27 P-1, c27 Cernu = Cerebellar nuclei Med = Medulla Ve = Vestibular nuclei
K11857.indb 29
10/26/10 4:31:32 PM
30
Atlas of the Neonatal Rat Brain
Figure 28 P-1, c28 Cernu = Cerebellar nuclei Med = Medulla Ve = Vestibular nuclei
K11857.indb 30
10/26/10 4:31:33 PM
Coronal Plates
31
Figure 29 P-1, c29 Cernu = Cerebellar nuclei Med = Medulla
K11857.indb 31
10/26/10 4:31:34 PM
32
Atlas of the Neonatal Rat Brain
Figure 30 P-1, c30 Mret = Medullary reticular formation
K11857.indb 32
10/26/10 4:31:35 PM
Sagittal Plates
33
Sagittal Plates
Figure 31 P-1, s1 AO = Anterior olfactory bulb cc = Corpus callosum Cer = Cerebellar peduncle CgCtx = Cingulate cortex EPI = External plexiform layer, olfactory bulb GI = Glomerular layer, olfactory bulb Hypo = Hypothalamus
K11857.indb 33
IC = Inferior colliculus PAG = Periaqueductal gray matter Pi = Pineal gland Med = Medulla SC = Superior colliculus Th = Thalamus
10/26/10 4:31:35 PM
34
Atlas of the Neonatal Rat Brain
Figure 32 P-1, -s2 AO = Anterior olfactory bulb cc = Corpus callosum CgCtx = Cingulate cortex EPI = External plexiform layer, olfactory bulb GI = Glomerular layer, olfactory bulb Hypo = Hypothalamus IC = Inferior colliculus Med = Medulla OV = Olfactory ventricle PAG = Periaqueductal gray matter Pi = Pineal gland Pit = Pituitary gland SC = Superior colliculus Th = Thalamus
K11857.indb 34
10/26/10 4:31:36 PM
Sagittal Plates
Figure 33 P-1, s3 Acb = Accumbens nucleus AO = Anterior olfactory bulb cer = Cerebellum CPu = Caudate putamen DG = Dentate gyrus EPI = External plexiform layer, olfactory bulb FrCtx = Frontal cortex
K11857.indb 35
35
Hypo = Hypothalamus Med = Medulla OV = Olfactory ventricle Pit = Pituitary gland SC = Superior colliculus Th = Thalamus
10/26/10 4:31:36 PM
36
Atlas of the Neonatal Rat Brain
Figure 34 P-1, s4 Acb = Accumbens nucleus AO = Anterior olfactory bulb cc = Corpus callosum cer = Cerebellum CPu = Caudate putamen EPI = External plexiform layer, olfactory bulb FrCtx = Frontal cortex
K11857.indb 36
GI = Glomerular layer, olfactory bulb Hypo = Hypothalamus IC = Inferior colliculus Pit = Pituitary gland Med = Medulla SC = Superior colliculus Th = Thalamus
10/26/10 4:31:37 PM
Sagittal Plates
Figure 35 P-1, s5 Acb = Accumbens nucleus ATh = Anterior thalamus AO = Anterior olfactory bulb apons = Anterior pons CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus FrCtx = Frontal cortex
K11857.indb 37
37
GP = Globus pallidus Hypo = Hypothalamus IC = Inferior colliculus OV = Olfactory ventricle Pit = Pituitary gland PTh = Posterior thalamus Med = Medulla SC = Superior colliculus Th = Thalamus
10/26/10 4:31:37 PM
38
Atlas of the Neonatal Rat Brain
Figure 36 P-1, s6 Acb = Accumbens nucleus AO = Anterior olfactory bulb ATh = Anterior thalamus CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cer = Cerebellum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 38
FrCtx = Frontal cortex Hypo = Hypothalamus IC = Inferior colliculus Med = Medulla OV = Olfactory ventricle Pit = Pituitary gland PTh = Posterior thalamus SC = Superior colliculus Th = Thalamus
10/26/10 4:31:38 PM
Sagittal Plates
Figure 37 P-1, s7 Acb = Accumbens nucleus ATh = Anterior thalamus CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cer = Cerebellum CPu = Caudate putamen DG = Dentate gyrus FrCtx = Frontal cortex
K11857.indb 39
39
Hypo = Hypothalamus IC = Inferior colliculus Ic = Internal capsule Med = Medulla OV = Olfactory ventricle Pit = Pituitary gland PTh = Posterior thalamus SC = Superior colliculus Th = Thalamus
10/26/10 4:31:38 PM
40
Atlas of the Neonatal Rat Brain
Figure 38 P-1, s8 Acb = Accumbens nucleus ATh = Anterior thalamus CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cer = Cerebellum CPu = Caudate putamen DG = Dentate gyrus Hypo = Hypothalamus IC = Inferior colliculus
K11857.indb 40
Ic = Internal capsule Med = Medulla Pal = Pallidum Pit = Pituitary gland PTh = Posterior thalamus SC = Superior colliculus STn = Subthalamic nuclei Th = Thalamus ZI = Zona incerta
10/26/10 4:31:39 PM
Sagittal Plates
Figure 39 P-1, s9 Amy = Amygdaloid nuclei ATh = Anterior thalamus Acb = Accumbens nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cer = Cerebellum CPu = Caudate putamen
K11857.indb 41
41
DG = Dentate gyrus Hypo = Hypothalamus GP = Globus pallidus Ic = Internal capsule IC = Inferior colliculus pal = Pallidum PTh = Posterior thalamus
10/26/10 4:31:40 PM
42
Atlas of the Neonatal Rat Brain
Figure 40 P-1, s10 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen FrCtx = Frontal cortex GP = Globus pallidus
K11857.indb 42
10/26/10 4:31:40 PM
Sagittal Plates
43
Figure 41 P-1, s11 cc = Corpus callosum cer = Cerebellum Cpu = Caudate putamen dhippo = Dorsal hippocampal formation FrCtx = Frontal cortex vhippo = Ventral hippocampal formation
K11857.indb 43
10/26/10 4:31:41 PM
44
Atlas of the Neonatal Rat Brain
Figure 42 P-1, s12 Amy = Amygdaloid nuclei Cpu = Caudate putamen dhippo = Dorsal hippocampal formation FrCtx = Frontal cortex OCtx = Olfactory cortex vhippo = Ventral hippocampal formation
K11857.indb 44
10/26/10 4:31:42 PM
Sagittal Plates
45
Figure 43 P-1, s13 Amy = Amygdaloid nuclei Cpu = Caudate putamen Hfor = Hippocampal formation neoCtx = Neocortex OCtx = Olfactory cortex
K11857.indb 45
10/26/10 4:31:42 PM
46
Atlas of the Neonatal Rat Brain
Figure 44 P-1, s14 Ctx = Cortex
K11857.indb 46
10/26/10 4:31:43 PM
Section II
P-7 Brain
K11857.indb 47
10/26/10 4:31:43 PM
Coronal Plates
49
Coronal Plates
Figure 45 P-7, c1 EPI = External plexiform layer, olfactory bulb GI = Glomerular layer, olfactory bulb IPI = Internal plexiform layer, olfactory bulb OV = Olfactory ventricle
K11857.indb 49
10/26/10 4:31:44 PM
50
Atlas of the Neonatal Rat Brain
Figure 46 P-7, -c2 AO = Anterior olfactory bulb E = Ependyma and subependymal layer OCtx = Orbital cortex OV = Olfactory ventricle
K11857.indb 50
10/26/10 4:31:44 PM
Coronal Plates
51
Figure 47 P-7, c3 AO = Anterior olfactory bulb E = Ependyma and subependymal layer FrCtx = Frontal cortex OCtx = Orbital cortex OV = Olfactory ventricle PrCtx = Parietal cortex
K11857.indb 51
10/26/10 4:31:45 PM
52
Atlas of the Neonatal Rat Brain
Figure 48 P-7, c4 AICtx = Agranular insular cortex CgCtx = Cingulate cortex E = Ependyma and subependymal layer fmi = Forceps minor of corpus callosum MCtx = Motor cortex OCtx = Orbital cortex OV = Olfactory ventricle PrCtx = Parietal cortex
K11857.indb 52
10/26/10 4:31:46 PM
Coronal Plates
53
Figure 49 P-7, c5 AICtx = Agranular insular cortex AO = anterior olfactory nuclei CgCtx = Cingulate cortex E = Ependyma and subependymal layer fmi = Forceps minor of corpus callosum MCtx = Motor cortex OCtx = Orbital cortex OV = Olfactory ventricle pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 53
10/26/10 4:31:46 PM
54
Atlas of the Neonatal Rat Brain
Figure 50 P-7, c6 AICtx = Agranular insular cortex AO = Anterior olfactory nuclei CgCtx = Cingulate cortex E = Ependyma and subependymal layer fmi = Forceps minor of corpus callosum MCtx = Motor cortex OCtx = Orbital cortex OV = Olfactory ventricle pir = Piriform cortex PrCtx = Parietal cortex
K11857.indb 54
10/26/10 4:31:47 PM
Coronal Plates
Figure 51 P-7, c7 AcbC = Accumbens nucleus core AICtx = Agranular insular cortex CgCtx = Cingulate cortex CPu = Caudate putamen fmi = Forceps minor of corpus callosum
K11857.indb 55
55
LS = Lateral septal nuclei LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:31:48 PM
56
Atlas of the Neonatal Rat Brain
Figure 52 P-7, c8 aca = Anterior commissure AcbC = Accumbens nucleus core cc = Corpus callosum CgCtx = Cingulate cortex CPu = Caudate putamen LS = Lateral septal nuclei LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 56
10/26/10 4:31:48 PM
Coronal Plates
57
Figure 53 P-7, c9 aca = Anterior commissure AICtx = Agranular insular cortex CgCtx = Cingulate cortex cc = Corpus callosum CPu = Caudate putamen ec = external capsule LS = Lateral septal nuclei LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 57
10/26/10 4:31:49 PM
58
Atlas of the Neonatal Rat Brain
Figure 54 P-7, c10 AICtx = Agranular insular cortex CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = external capsule
K11857.indb 58
LGP = Lateral globus pallidus LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:31:50 PM
Coronal Plates
Figure 55 P-7, c11 aca = Anterior commissure AICtx = Agranular insular cortex AVTh = Anteroventral thalamic nucleus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = External capsule
K11857.indb 59
59
Hypo = Hypothalamus LGP = Lateral globus pallidus LTh = Lateral thalamic nucleus LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex PvTH = Paraventricular thalamic nucleus SCtx = Somatosensory cortex
10/26/10 4:31:50 PM
60
Atlas of the Neonatal Rat Brain
Figure 56 P-7, c12 AICtx = Agranular insular cortex Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = External capsule
K11857.indb 60
Hypo = Hypothalamus LGP = Lateral globus pallidus LTh = Lateral thalamic nucleus LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex PvTH = Paraventricular thalamic nucleus SCtx = Somatosensory cortex
10/26/10 4:31:51 PM
Coronal Plates
Figure 57 P-7, c13 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = External capsule
K11857.indb 61
61
Hypo = Hypothalamus LGP = Lateral globus pallidus LTh = Lateral thalamic nucleus MCtx = Motor cortex pir = Piriform cortex PvTH = Paraventricular thalamic nucleus SCtx = Somatosensory cortex VTh = Ventral thalamic nucleus
10/26/10 4:31:51 PM
62
Atlas of the Neonatal Rat Brain
Figure 58 P-7, c14 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = External capsule
K11857.indb 62
Hypo = Hypothalamus LGP = Lateral globus pallidus LTh = Lateral thalamic nucleus MCtx = Motor cortex pir = Piriform cortex PvTH = Paraventricular thalamic nucleus SCtx = Somatosensory cortex VTh = Ventral thalamic nucleus
10/26/10 4:31:52 PM
Coronal Plates
Figure 59 P-7, c15 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus ec = External capsule Hypo = Hypothalamus LTh = Lateral thalamic nucleus
K11857.indb 63
63
pir = Piriform cortex PtA = Parietal association cortex PvTH = Paraventricular thalamic nucleus SCtx = Somatosensory cortex SNr = Substantia nigra reticulate VCtx = Visual cortex VTh = Ventral thalamic nucleus ZI = Zona incerta
10/26/10 4:31:53 PM
64
Atlas of the Neonatal Rat Brain
Figure 60 P-7, c16 AuCtx = auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus PAG = Periaqueductal gray matter SC = Superior colliculus SNr = Substantia nigra reticulata VCtx = Visual cortex
K11857.indb 64
10/26/10 4:31:54 PM
Coronal Plates
Figure 61 P-7, c17 AuCtx = Auditory cortex CA3 = CA3 field of hippocampus fmj = Forceps major of corpus callosum Lent = Lateral entorhinal cortex PAG = Periaqueductal gray matter
K11857.indb 65
65
Pir = Piriform cortex SC = Superior colliculus SNr = Substantia nigra reticulate VCtx = Visual cortex
10/26/10 4:31:54 PM
66
Atlas of the Neonatal Rat Brain
Figure 62 P-7, c18 S = Subiculum DR = Dorsal raphe nucleus PAG = Periaqueductal gray matter SC = Superior colliculus
K11857.indb 66
10/26/10 4:31:55 PM
Coronal Plates
67
Figure 63 P-7, c19 DR- = Dorsal raphe nucleus PAG = Periaqueductal gray matter Pn = Pontine nucleus SC = Superior colliculus
K11857.indb 67
10/26/10 4:31:56 PM
68
Atlas of the Neonatal Rat Brain
Figure 64 P-7, c20 CG- = Central gray matter IC = Inferior colliculus
K11857.indb 68
10/26/10 4:31:57 PM
Coronal Plates
69
Figure 65 P-7, c21 1 through 3 = Cerebellar lobules CG = Central gray matter Crus1 = Crus 1 of ansiform lobule DTg = Dorsal tegmental nuclei IC = Inferior colliculus PTg = Posterior tegmental nuclei Sim = Simple lobule
K11857.indb 69
10/26/10 4:31:58 PM
70
Atlas of the Neonatal Rat Brain
Figure 66 P-7, c22 Cu- = Cuneate nucleus IC = Inferior colliculus Ve = Vestibular nuclei
K11857.indb 70
10/26/10 4:31:58 PM
Coronal Plates
71
Figure 67 P-7, c23 1 through 6 = Cerebellar lobules Ve = Vestibular nuclei
K11857.indb 71
10/26/10 4:31:59 PM
72
Atlas of the Neonatal Rat Brain
Figure 68 P-7, c24 1 through 3 = Cerebellar lobules Ve = Vestibular nuclei
K11857.indb 72
10/26/10 4:32:00 PM
Coronal Plates
73
Figure 69 P-7, c25 1 = Cerebellar lobule Crus 2 = Crus 2 of ansiform lobule PM = Paramedian lobule
K11857.indb 73
10/26/10 4:32:01 PM
74
Atlas of the Neonatal Rat Brain
Figure 70 P-7, c26 1 through 6 = Cerebellar lobules Crus 2 = Crus 2 of ansiform lobule PM = Paramedian lobule
K11857.indb 74
10/26/10 4:32:02 PM
Coronal Plates
75
Figure 71 P-7, c27 Mret = Medullary reticular formation
K11857.indb 75
10/26/10 4:32:02 PM
76
Atlas of the Neonatal Rat Brain
Sagittal Plates
Figure 72 P-7, s1 Acb = Accumbens nucleus AO = Anterior olfactory bulb CA1 = CA1 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex IC = Inferior colliculus MCtx = Motor cortex
K11857.indb 76
MD = Mediodorsal thalamic nucleus Med = Medulla OCtx = Orbital cortex PrLCtx = Prelimbic cortex SC = Superior colliculus SubM = Submedial thalamic nucleus VCtx = Visual cortex
10/26/10 4:32:03 PM
Sagittal Plates
Figure 73 P-7, s2 AO = Anterior olfactory bulb Acb = Accumbens nucleus CA1 = CA1 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex IC = Inferior colliculus MCtx = Motor cortex
K11857.indb 77
77
MD = Mediodorsal thalamic nucleus Med = Medulla OCtx = Orbital cortex PrLCtx = Prelimbic cortex SC = Superior colliculus Sub = Submedial thalamic nucleus VCtx = Visual cortex
10/26/10 4:32:04 PM
78
Atlas of the Neonatal Rat Brain
Figure 74 P-7, s3 Acb = Accumbens nucleus AO = Anterior olfactory bulb CA1 = CA1 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex DG = Dentate gyrus IAD = Interanterodorsal thalamic nucleus IC = Inferior colliculus MCtx = Motor cortex MDL = Mediodorsal thalamus
K11857.indb 78
Med = Medulla OCtx = Orbital cortex PAG = Periaqueductal gray matter pcf = Precommissural fornix Pit = Pituitary gland Sub = Submedial thalamic nucleus VCtx = Visual cortex VM = Ventromedial thalamus ZI = Zona incerta
10/26/10 4:32:05 PM
Sagittal Plates
Figure 75 P-7, s4 aca = Anterior commissure Acb = Accumbens nucleus AM = Anteromedial thalamic nucleus Apit = Anterior pituitary gland CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum Hypo = Hypothalamus
K11857.indb 79
79
IAD = Interanterodorsal thalamic nucleus IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MD = Mediodorsal thalamus OCtx = Orbital cortex OV = Olfactory ventricle PAG = Periaqueductal gray matter Sub = Submedian thalamic nucleus VCtx = Visual cortex ZI = Zona incerta
10/26/10 4:32:05 PM
80
Atlas of the Neonatal Rat Brain
Figure 76 P-7, s5 aca = Anterior commissure Acb = Accumbens nucleus AM = Anteromedial thalamic nucleus Apit =Anterior pituitary gland CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum
K11857.indb 80
Hypo = Hypothalamus IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MD = Mediodorsal thalamus OCtx = Orbital cortex OV = Olfactory ventricle PAG = Periaqueductal gray matter Sub = Submedian thalamic nucleus VCtx = Visual cortex
10/26/10 4:32:06 PM
Sagittal Plates
Figure 77 P-7, s6 AP = Anteroposterior thalamus APit = Anterior pituitary gland AV = Anteroventral thalamus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum Hypo = Hypothalamus
K11857.indb 81
81
IC = Inferior colliculus LD = Laterodorsal thalamic nucleus MCtx = Motor cortex Med = Medulla OCtx = Orbital cortex PM = Paramedian lobule Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex SNr = Substantia nigra reticulata VCtx = Visual cortex VT = Ventral thalamus
10/26/10 4:32:07 PM
82
Atlas of the Neonatal Rat Brain
Figure 78 P-7, s7 2 through 6 = Cerebellar lobules AO = Anterior olfactory bulb AP = Anteroposterior thalamus APit = Anterior pituitary gland AV = Antero ventral thalamus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cp = Caudate peduncle CPu = Caudate putamen DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum Hypo = Hypothalamus
K11857.indb 82
IC = Inferior colliculus LD = Laterodorsal thalamic nuclei MCtx = Motor cortex Med = Medulla OCtx = Orbital cortex PM = Paramedian lobule Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex Sim = Simple lobule SNc = Substantia nigra compacta SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:08 PM
Sagittal Plates
Figure 79 P-7, s8 2 through 5 = Cerebellar lobules aca = Anterior commissure AcbSh = Accumbens nucleus shell AO = Anterior olfactory bulb CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen Crus1 = Crus 1 of ansiform lobule Crus2 = Crus 2 of ansiform lobule DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum
K11857.indb 83
83
IC = Inferior colliculus LDVL = Laterodorsal ventral thalamic nuclei LGP = Lateral globus pallidus MCtx = Motor cortex opt = Optic tract Po = Posterior thalamus SCtx = Somatosensory cortex sim = Simple lobule STn = Subthalamic nucleus VCtx = Visual cortex VL = Ventrolateral thalamic nucleus VPM = Ventroposteromedial thalamic nucleus VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:08 PM
84
Atlas of the Neonatal Rat Brain
Figure 80 P-7, s9 2 through 5 = Cerebellar lobules aca = Anterior commissure AcbSh = Accumbens nucleus shell AO = Anterior olfactory bulb CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen Crus1 = Crus 1 of ansiform lobule Crus2 = Crus 2 of ansiform lobule DG = Dentate gyrus fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum IC = Inferior colliculus LDVL = Laterodorsal ventral thalamic nucleus
K11857.indb 84
LGP = Lateral globus pallidus MCtx = Motor cortex opt = Optic tract Po = Posterior thalamus SC = Superior colliculus SCtx = Somatosensory cortex sim = Simple lobule SNc = Substantia nigra compacta SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VL = Ventrolateral thalamic nucleus VPM = Ventral posterior medial thalamic nucleus VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:09 PM
Sagittal Plates
Figure 81 P-7, s10 aca = Anterior commissure Amy = Amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum Cp = Caudate peduncle CPu = Caudate putamen DG = Dentate gyrus fmj = Forceps major of corpus callosum LDVL = Laterodorsal ventral thalamus
K11857.indb 85
85
LGP = Lateral globus pallidus MCtx = Motor cortex Pir = Piriform cortex PM = Paramedian lobule Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:10 PM
86
Atlas of the Neonatal Rat Brain
Figure 82 P-7, s11 AICtx = Agranular insular cortex Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = external capsule Ic = Internal capsule LGP = Lateral globus pallidus
K11857.indb 86
LTh = Lateral thalamus MCtx = Motor cortex MEnt = Medial entorhinal cortex OCtx = Orbital cortex Pir = Piriform cortex Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex S = Subiculum VCtx = Visual cortex VTh = Ventral thalamus
10/26/10 4:32:11 PM
Sagittal Plates
Figure 83 P-7, s12 AICtx = Agranular insular cortex Bamy = basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = external capsule GN = Geniculate nucleus
K11857.indb 87
87
Ic = Internal capsule LGP = Lateral globus pallidus MCtx = Motor cortex MEnt = Medial entorhinal cortex OCtx = Orbital cortex Pir = Piriform cortex SCtx = Somatosensory cortex S = Subiculum VCtx = Visual cortex VT = Ventral thalamus
10/26/10 4:32:11 PM
88
Atlas of the Neonatal Rat Brain
Figure 84 P-7, s13 AICtx = Agranular insular cortex Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = external capsule GN = Geniculate nucleus
K11857.indb 88
Ic = Internal capsule LGP = Lateral globus pallidus MCtx = Motor cortex MEnt = Medial entorhinal cortex OCtx = Orbital cortex Pir = Piriform cortex SCtx = Somatosensory cortex S = Subiculum VCtx = Visual cortex VT = Ventral thalamus
10/26/10 4:32:12 PM
Sagittal Plates
Figure 85 P-7, s14 AICtx = Agranular insular cortex Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus
K11857.indb 89
89
CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen ec = external capsule
10/26/10 4:32:13 PM
90
Atlas of the Neonatal Rat Brain
Figure 86 P-7, s15 AICtx = Agranular insular cortex Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen ec = external capsule fmj = Forceps major corpus callosum
K11857.indb 90
GP = Globus pallidus Ic = Internal capsule Lamy = Lateral amygdaloid nucleus MCtx = Motor cortex MEnt = Medial entorhinal cortex Pir = Piriform cortex SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:32:14 PM
Sagittal Plates
Figure 87 P-7, s16 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum
K11857.indb 91
91
CPu = Caudate putamen DG = Dentate gyrus MCtx = Motor cortex SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:32:15 PM
92
Atlas of the Neonatal Rat Brain
Figure 88 P-7, s17 Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum
K11857.indb 92
CPu = Caudate putamen DG = Dentate gyrus MCtx = Motor cortex SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:32:16 PM
Sagittal Plates
93
Figure 89 P-7, s18 Amy = Amygdaloid nuclei CPu = Caudate putamen dhippo = Dorsal hippocampal formation MCtx = Motor cortex SCtx = Somatosensory cortex VCtx = Visual cortex Vhippo = Ventral hippocampal formation
K11857.indb 93
10/26/10 4:32:17 PM
94
Atlas of the Neonatal Rat Brain
Figure 90 P-7, s19 CPu = Caudate putamen MCtx = Motor cortex SCtx = Somatosensory cortex Hfor = Hippocampal formation
K11857.indb 94
10/26/10 4:32:18 PM
Sagittal Plates
95
Figure 91 P-7, s20 Ctx = Cortex Hfor = Hippocampal formation
K11857.indb 95
10/26/10 4:32:19 PM
96
Atlas of the Neonatal Rat Brain
Figure 92 P-7, s21 Ctx = Cortex
K11857.indb 96
10/26/10 4:32:20 PM
Sagittal Plates
97
Figure 93 P-7, s22 Ctx = Cortex
K11857.indb 97
10/26/10 4:32:21 PM
98
Atlas of the Neonatal Rat Brain
Figure 94 P-7, s23 Ctx = Cortex
K11857.indb 98
10/26/10 4:32:21 PM
Sagittal Plates
99
Figure 95 P-7, s24 Ctx-= Cortex
K11857.indb 99
10/26/10 4:32:22 PM
Section III
P-14 Brain
K11857.indb 101
10/26/10 4:32:22 PM
Coronal Plates
103
Coronal Plates
Figure 96 P-14, c1 E = Ependyma and subependymal layer EPI = External plexiform layer, olfactory bulb GI = Glomerular layer, olfactory bulb GrO = Granular cell layer, olfactory bulb OV = Olfactory ventricle
K11857.indb 103
10/26/10 4:32:23 PM
104
Atlas of the Neonatal Rat Brain
Figure 97 P-14, c2 AO = Anterior olfactory bulb E = Ependyma and subependymal layer OCtx = Orbital cortex OV = Olfactory ventricle
K11857.indb 104
10/26/10 4:32:24 PM
Coronal Plates
105
Figure 98 P-14, c3 AO = Anterior olfactory bulb E = Ependyma and subependymal layer MCtx = Motor cortex OCtx = Orbital cortex OV = Olfactory ventricle
K11857.indb 105
10/26/10 4:32:25 PM
106
Atlas of the Neonatal Rat Brain
Figure 99 P-14, c4 AICtx = Agranular insular cortex AO = Anterior olfactory nuclei CgCtx = Cingulate cortex E = Ependyma and subependymal layer fmi = Forceps minor of corpus callosum MCtx = Motor cortex OCtx = Orbital cortex OV = Olfactory ventricle Pir = Piriform cortex PrLCtx = Prelimbic cortex
K11857.indb 106
10/26/10 4:32:26 PM
Coronal Plates
107
Figure 100 P-14, c5 AICtx = Agranular insular cortex CgCtx = Cingulate cortex fmi = Forceps minor of corpus callosum LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 107
10/26/10 4:32:26 PM
108
Atlas of the Neonatal Rat Brain
Figure 101 P-14, c6 AICtx = Agranular insular cortex AcbC = Nucleus accumbens core AcbSh = Nucleus accumbens shell CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule
K11857.indb 108
fmi = Forceps minor of corpus callosum LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:32:27 PM
Coronal Plates
109
Figure 102 P-14, c7 AICtx = Agranular insular cortex AcbC = Nucleus accumbens core AcbSh = Nucleus accumbens shell CgCtx = Cingulate cortex CPu = Caudate putamen ec = external capsule fmi = Forceps minor of corpus callosum LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 109
10/26/10 4:32:28 PM
110
Atlas of the Neonatal Rat Brain
Figure 103 P-14, c8 aca = Anterior commissure CgCtx = Cingulate cortex CPu = Caudate putamen cc = Corpus callosum LS = Lateral septal nuclei LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 110
10/26/10 4:32:29 PM
Coronal Plates
111
Figure 104 P-14, c9 aca = Anterior commissure CgCtx = Cingulate cortex CPu = Caudate putamen cc = Corpus callosum LSI = Lateral septal nuclei MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 111
10/26/10 4:32:30 PM
112
Atlas of the Neonatal Rat Brain
Figure 105 P-14, c10 cc = Corpus callosum CgCtx = Cingulate cortex CPu = Caudate putamen LSI = Lateral septal nuclei MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 112
10/26/10 4:32:31 PM
Coronal Plates
113
Figure 106 P-14, c11 cc = Corpus callosum CPu = Caudate putamen LSI = Lateral septal nuclei MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 113
10/26/10 4:32:31 PM
114
Atlas of the Neonatal Rat Brain
Figure 107 P-14, c12 cc = Corpus callosum CgCtx = Cingulate cortex CPu = Caudate putamen Ec = External capsule LV = Lateral ventricle MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 114
10/26/10 4:32:32 PM
Coronal Plates
Figure 108 P-14, c13 cc = Corpus callosum CgCtx = Cingulate cortex CPu = Caudate putamen D3V = Dorsal third ventricle fi = Fimbria of hippocampus
K11857.indb 115
115
LGP = Lateral globus pallidus MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:32:33 PM
116
Atlas of the Neonatal Rat Brain
Figure 109 P-14, c14 AT = Anterior thalamus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen ec = external capsule LGP = Lateral globus pallidus MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 116
10/26/10 4:32:34 PM
Coronal Plates
117
Figure 110 P-14, c15 AT = Anterior thalamus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus ec = external capsule LGP = Lateral globus pallidus MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
K11857.indb 117
10/26/10 4:32:35 PM
118
Atlas of the Neonatal Rat Brain
Figure 111 P-14, c16 AICtx = Agranular insular cortex Amy = Amygdaloid nuclei AT = Anterior thalamus AICtx = Agranular insular cortex CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen
K11857.indb 118
DG = Dentate gyrus ec = external capsule hypo = Hypothalamus LGP = Lateral globus pallidus MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:32:36 PM
Coronal Plates
Figure 112 P-14, c17 AICtx = Agranular insular cortex Amy = Amygdaloid nuclei AT = Anterior thalamus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 119
119
ec = external capsule hypo = Hypothalamus LDVL = Lateral dorsoventral thalamus LGP = Lateral globus pallidus MCtx = Motor cortex pir = Piriform cortex SCtx = Somatosensory cortex
10/26/10 4:32:37 PM
120
Atlas of the Neonatal Rat Brain
Figure 113 P-14, c18 AICtx = Agranular insular cortex Amy = Amygdaloid nuclei AT = Anterior thalamus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 120
ec = external capsule hypo = Hypothalamus LDVL = Lateral dorsoventral thalamus LGP = Lateral globus pallidus MCtx = Motor cortex SCtx = Somatosensory cortex VT = Ventral thalamus
10/26/10 4:32:37 PM
Coronal Plates
Figure 114 P-14, c19 AICtx = Agranular insular cortex Amy = Amygdaloid nucleus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 121
121
ec = external capsule hypo = Hypothalamus LDVL = Lateral dorsoventral thalamus MCtx = Motor cortex MT = Medial thalamus SCtx = Somatosensory cortex VT = Ventral thalamus
10/26/10 4:32:38 PM
122
Atlas of the Neonatal Rat Brain
Figure 115 P-14, c20 AICtx = Agranular insular cortex Amy = Amygdaloid nuclei CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 122
ec = external capsule hypo = Hypothalamus LDVL = Lateral dorsoventral thalamus LGP = Lateral globus pallidus MCtx = Motor cortex MT = Medial thalamus SCtx = Somatosensory cortex VT = Ventral thalamus
10/26/10 4:32:39 PM
Coronal Plates
Figure 116 P-14, c21 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CM = Central medial thalamic nucleus CPu = Caudate putamen DG = Dentate gyrus ec = external capsule
K11857.indb 123
123
hypo = Hypothalamus LT = Lateral thalamus MT = Medial thalamus Po = Posterior thalamic nucleus group PtACtx = Parietal association cortex RsCtx = Retrospenial cortex SCtx = Somatosensory cortex VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:40 PM
124
Atlas of the Neonatal Rat Brain
Figure 117 P-14, c22 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CM = Central medial thalamic nucleus DG = Dentate gyrus ec = external capsule hypo = Hypothalamus
K11857.indb 124
LTh = Lateral thalamus MT = Medial thalamus pir = Piriform cortex Po = Posterior thalamic nucleus group PtACtx = Parietal association cortex RsCtx = Retrospenial cortex SCtx = Somatosensory cortex STn = Subthalamic nucleus VT = Ventral thalamus ZI = Zona incerta
10/26/10 4:32:41 PM
Coronal Plates
Figure 118 P-14, c23 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus LT = Lateral thalamus
K11857.indb 125
125
Lent = Lateral entorhinal cortex pir = Piriform cortex PtACtx = Parietal association cortex RsCtx = Retrospenial cortex SNr = Substantia nigra reticulata VCtx = Visual cortex ZI = Zona incerta
10/26/10 4:32:49 PM
126
Atlas of the Neonatal Rat Brain
Figure 119 P-14, c24 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus DG = Dentate gyrus Lent = Lateral entorhinal cortex LPAG = Lateral periaqueductal gray matter
K11857.indb 126
LT = Lateral thalamus MGN = Medial geniculate nucleus pir = Piriform cortex PtACtx = Parietal association cortex RsCtx = Retrospenial cortex SNr = Substantia nigra reticulata VCtx = Visual cortex ZI = Zona incerta
10/26/10 4:32:50 PM
Coronal Plates
127
Figure 120 P-14, c25 Amy = Amygdaloid nuclei AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus Lent = Lateral entorhinal cortex MGN = Medial geniculate nucleus PAG = Periaqueductal gray matter Pir = Piriform cortex RsCtx = Retrospenial cortex SC = Superior colliculus SNr = Substantia nigra reticulate
K11857.indb 127
10/26/10 4:32:50 PM
128
Atlas of the Neonatal Rat Brain
Figure 121 P-14, c26 Amy = Amygloid nucleus AuCtx = Auditory cortex CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus PAG = Periaqueductal gray Pir = Piriform cortex MGN = Medial geniculate nucleus RsCtx = Retrospenial cortex SC = Superior colliculus SNr = Substantia nigra, reticulata
K11857.indb 128
10/26/10 4:32:51 PM
Coronal Plates
129
Figure 122 P-14, c27 Lent = Lateral entorhinal cortex PAG = Periaqueductal gray matter RsCtx = Retrospenial cortex S = Subiculum SC = Superior colliculus SNr = Substantia nigra reticulata VCtx = Visual cortex
K11857.indb 129
10/26/10 4:32:52 PM
130
Atlas of the Neonatal Rat Brain
Figure 123 P-14, c28 Hf = Hippocampal fissure Lent = Lateral entorhinal cortex PAG = Periaqueductal gray matter RsCtx = Retrospenial cortex S = Subiculum SC = Superior colliculus SNr = Substantia nigra reticulata VCtx = Visual cortex
K11857.indb 130
10/26/10 4:32:53 PM
Coronal Plates
131
Figure 124 P-14, c29 fmj = Forceps major of corpus callosum IC = Inferior colliculus PAG = Periaqueductal gray matter SC = Superior colliculus RsCtx = Retrospenial cortex VCtx = Visual cortex
K11857.indb 131
10/26/10 4:32:54 PM
132
Atlas of the Neonatal Rat Brain
Figure 125 P-14, c30 fmj = Forceps major of corpus callosum IC = Inferior colliculus Lent = Lateral entorhinal cortex PAG = Periaqueductal gray matter SC = Superior colliculus RsCtx = Retrospenial cortex VCtx = Visual cortex
K11857.indb 132
10/26/10 4:32:54 PM
Coronal Plates
133
Figure 126 P-14, c31 IC = Inferior colliculus PAG = Periaqueductal gray matter RsCtx = Retrospenial cortex SC = Superior colliculus VCtx = Visual cortex
K11857.indb 133
10/26/10 4:32:55 PM
134
Atlas of the Neonatal Rat Brain
Figure 127 P-14, c32 2 = Cerebellar lobule DTg = Dorsal tegmental nucleus IC = Inferior colliculus Pn = Pontine reticular nucleus
K11857.indb 134
10/26/10 4:32:56 PM
Coronal Plates
135
Figure 128 P-14, c33 Cer = Cerebellar nuclei DTg = Dorsal tegmental nucleus IC = Inferior colliculus
K11857.indb 135
10/26/10 4:32:57 PM
136
Atlas of the Neonatal Rat Brain
Figure 129 P-14, c34 1 through 4 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Sim = Simple lobule
K11857.indb 136
10/26/10 4:32:58 PM
Coronal Plates
137
Figure 130 P-14, c35 1 through 4 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Sim = Simple lobule
K11857.indb 137
10/26/10 4:32:59 PM
138
Atlas of the Neonatal Rat Brain
Figure 131 P-14, c36 1 through 4 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Sim = Simple lobule
K11857.indb 138
10/26/10 4:32:59 PM
Coronal Plates
139
Figure 132 P-14, c37 1 through 6 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Lat = Lateral cerebellar nucleus Sim = Simple lobule Spn = Spinal nucleus
K11857.indb 139
10/26/10 4:33:00 PM
140
Atlas of the Neonatal Rat Brain
Figure 133 P-14, c38 6 through 10 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Crus2 = Crus2 of ansiform lobule plf = Posterolateral fissure
K11857.indb 140
10/26/10 4:33:01 PM
Coronal Plates
141
Figure 134 P-14, c39 6 through 10 = Cerebellar lobules Crus1 = Crus1 of ansiform lobule Crus2 = Crus2 of ansiform lobule
K11857.indb 141
10/26/10 4:33:02 PM
142
Atlas of the Neonatal Rat Brain
Figure 135 P-14, c40 cer = Cerebellum Spn = Spinal nucleus
K11857.indb 142
10/26/10 4:33:03 PM
Coronal Plates
143
Figure 136 P-14, c41 9 = Cerebellar lobule Spn = Spinal nucleus
K11857.indb 143
10/26/10 4:33:04 PM
144
Atlas of the Neonatal Rat Brain
Sagittal Plates
Figure 137 P-14, S1 4 through 9 = Cerebellar lobules Acb = Accumbens nucleus AO = Anterior olfactory bulb AM = Anteromedial thalamus APit = Anterior pituitary CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex GI = Glomerular cell layer, olfactory bulb
K11857.indb 144
IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MDM = Mediodorsal thalamic nucleus PAG = Periaqueductal gray matter PrLCtx = Prelimbic cortex RSCtx = Retrospenial cortex Sub = Submedial thalamic nucleus VH = Ventral hypothalamus
10/26/10 4:33:05 PM
Sagittal Plates
Figure 138 P-14, s2 4 through 10 = Cerebellar lobules Acb = Accumbens nucleus AM = Anteromedial thalamus AO = Anterior olfactory bulb APit = Anterior pituitary CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex GI = Glomerular layer olfactory bulb
K11857.indb 145
145
IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MDM = Mediodorsal thalamic nucleus PAG = Periaqueductal gray matter PrLCtx = Prelimbic cortex RSCtx = Retrospenial cortex Sub = Submedial thalamic nucleus VH = Ventral hypothalamus
10/26/10 4:33:05 PM
146
Atlas of the Neonatal Rat Brain
Figure 139 P-14, s3 1 through 9 = Cerebellar lobules aca = Anterior commissure AcbSh = Accumbens nucleus shell AM = Anteriomedial thalamus AO = Anterior olfactory bulb APit = Anterior pituitary CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex DG = Dentate gyrus GI = Glomerular layer, olfactory bulb
K11857.indb 146
IAD = Interanterodorsal thalamic nucleus IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MD = Mediodorsal thalamic nucleus OV= Olfactory ventricle PAG = Periaqueductal gray matter Sub = Submedial thalamic nucleus VCtx = Visual cortex VM = Ventromedial thalamus VO = Ventral orbital cortex ZI = Zona incerta
10/26/10 4:33:06 PM
Sagittal Plates
Figure 140 P-14, s4 1 through 10 = Cerebellar lobules aca = Anterior commissure AcbSh = Accumbens nucleus shell AM = Anteromedial thalamus AO = Anterior olfactory bulb APit = Anterior pituitary CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex DG = Dentate gyrus GI = Glomerular layer, olfactory bulb
K11857.indb 147
147
IAD = Interanterodorsal thalamic nucleus IC = Inferior colliculus LS = Lateral septal nucleus MCtx = Motor cortex MD = Mediodorsal thalamic nucleus OV = Olfactory ventricle PAG = Periaqueductal gray matter Sub = Submedial thalamic nucleus VM = Ventral medial thalamus VO = Ventral orbital cortex VCtx = Visual cortex ZI = Zona incerta
10/26/10 4:33:07 PM
148
Atlas of the Neonatal Rat Brain
Figure 141 P-14, S5 2 through 6 = Cerebellar lobules AICtx = Agranular insular cortex AO = Anterior olfactory bulb APT = Anteriorpretectal nucleus AV = Anteroventral thalamus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex Cop = Copula of pyramis CPu = Caudate putamen Crus2 = Crus2 of ansiform lobule EPI = External plexiform layer, olfactory bulb fmi = Forceps minor of corpus callosum
K11857.indb 148
fmj = Forceps major of corpus callosum GI = Glomerular layer, olfactory bulb IC = Inferior colliculus MCtx = Motor cortex OCtx = Orbital cortex Pir = Piriform cortex Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex sim = Simple lobule SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VL = Ventrolateral thalamic nucleus ZI = Zona incerta
10/26/10 4:33:07 PM
Sagittal Plates
Figure 142 P-14, S6 2 through 6 = Cerebellar lobules AICtx = Agranular insular cortex AO = Anterior olfactory bulb APT = Anteriorpretectal nucleus AV = Anteroventral thalamus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CgCtx = Cingulate cortex Cop = Copula of pyramis CPu = Caudate putamen Crus2 = Crus2 of ansiform lobule EPI = External plexiform layer, olfactory bulb fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum GI = Glomerular layer olfactory bulb
K11857.indb 149
149
IC = Inferior colliculus LD = Laterodorsal thalamus MCtx = Motor cortex OCtx = Orbital cortex opt = Optic tract Pir = Piriform cortex Po = Posterior thalamic nucleus group SCtx = Somatosensory cortex sim = Simple lobule SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VL = Ventrolateral thalamic nucleus VM = Ventromedial thalamus VP = Ventral pallidum ZI = Zona incerta
10/26/10 4:33:08 PM
150
Atlas of the Neonatal Rat Brain
Figure 143 P-14, S7 2 through 5 = Cerebellar lobules AICtx = Agranular insular cortex AO = Anterior olfactory bulb Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cp = Caudate peduncle CPu = Caudate putamen Crus2 = Crus1 of ansiform lobule EPI = External plexiform layer, olfactory bulb fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum GI = Glomerular layer, olfactory bulb IC = Inferior colliculus Ic = Internal capsule LD = Laterodorsal thalamic nucleus
K11857.indb 150
LGP = Lateral globus pallidus MCtx = Motor cortex MEnt = Medial entorhinal cortex MEPD = Medial amygdala nucleus MGD = Medial geniculate nucleus, dorsal MGV = Medial geniculate nucleus, ventral OCtx = Orbital cortex opt = Optic tract Pir = Piriform cortex SCtx = Somatosensory cortex Sim = Simple lobule SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VPM = Ventroposteromedial thalamic nucleus VPL = ventroposterolateral thalamic nucleus VM = Ventromedial thalamus ZI = Zona incerta
10/26/10 4:33:09 PM
Sagittal Plates
Figure 144 P-14, S8 2 through 4 = Cerebellar lobules AICtx = Agranular insular cortex AO = Anterior olfactory bulb Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen Crus1 = Crus1 of ansiform lobule Crus2 = Crus2 of ansiform lobule EPI = External plexiform layer, olfactory bulb fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum GI = Glomerular layer, olfactory bulb IC = Inferior colliculus LDVL = Laterodorsal thalamic nucleus
K11857.indb 151
151
LGP = Lateral globus pallidus LPLR = Lateroposterior thalamic nucleus LPM = Lateroposteromedial thalamic nucleus MCtx = Motor cortex MEPD = Medial amygdala nucleus OCtx = Orbital cortex opt = Optic tract Pir = Piriform cortex PM = Paramedian lobule SCtx = Somatosensory cortex Sim = Simple lobule SNr = Substantia nigra reticulata STn = Subthalamic nucleus VCtx = Visual cortex VPM = Ventroposterimedial thalamic nucleus VPL = Ventroposterolateral thalamic nucleus ZI = Zona incerta
10/26/10 4:33:10 PM
152
Atlas of the Neonatal Rat Brain
Figure 145 P-14, S9 2 through 5 = Cerebellar lobules AICtx = Agranular insular cortex AO = Anterior olfactory bulb Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum cp = Caudate peduncle CPu = Caudate putamen Crus1 = Crus1 of ansiform lobule Crus2 = Crus2 of ansiform lobule EPI = External plexiform layer, olfactory bulb fmi = Forceps minor of corpus callosum fmj = Forceps major of corpus callosum GI = Glomerular layer, olfactory bulb IC = Inferior colliculus Ic = Internal capsule
K11857.indb 152
LDL = Laterodorsal thalamic nucleus LGP = Lateral globus pallidus MCtx = Motor cortex MEnt = Medial entorhinal cortex MEPD = Medial amygdala nucleus MGD = Medial geniculate nucleus, dorsal MGV = Medial geniculate nucleus, ventral OCtx = Orbital cortex opt = Optic tract Pir = Piriform cortex PM = Paramedian lobule SCtx = Somatosensory cortex Sim = Simple lobule SN = Substantia nigra VCtx = Visual cortex VPL = Ventroposterolateral thalamic nucleus VPM = Ventroposteromedial thalamic nucleus ZI = Zona incerta
10/26/10 4:33:10 PM
Sagittal Plates
Figure 146 P-14, S10 Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen fmj = Forceps major of corpus callosum LT = Lateral thalamus LGP = Lateral globus pallidus
K11857.indb 153
153
MCtx = Motor cortex MGN = Medial geniculate nucleus Pir = Piriform cortex SCtx = Somatosensory cortex Sim = Simple lobule VCtx = Visual cortex VO = Ventral orbital cortex VT = Ventral thalamus
10/26/10 4:33:11 PM
154
Atlas of the Neonatal Rat Brain
Figure 147 P-14, S11 AICtx = Agranular insular cortex Bamy = Basal amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DLG = Dorsolateral geniculate nucleus fmj = Forceps major of corpus callosum Ic = Internal capsule
K11857.indb 154
Lent = Lateral entorhinal cortex LGP = Lateral globus pallidus MCtx = Motor cortex MEnt = Medial entorhinal cortex MGV = Medial geniculate nucleus Pir = Piriform cortex SCtx = Somatosensory cortex SubG = Subgeniculate nucleus VCtx = Visual cortex VPL = Ventroposterolateral thalamic nucleus
10/26/10 4:33:12 PM
Sagittal Plates
155
Figure 148 P-14, S12 AICtx = Agranular insular cortex amy = Amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen fmj = Forceps major of corpus callosum MCtx = Motor cortex Pir = Piriform cortex SCtx = Somatosensory cortex VCtx = Visual cortex
K11857.indb 155
10/26/10 4:33:20 PM
156
Atlas of the Neonatal Rat Brain
Figure 149 P-14, S13 AICtx = Agranular insular cortex amy = Amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus
K11857.indb 156
Ent = Entorhinal cortex fmj = Forceps major of corpus callosum MCtx = Motor cortex Pir = Piriform cortex PrS = Presubiculum SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:33:21 PM
Sagittal Plates
Figure 150 P-14, S14 AICtx = Agranular insular cortex alv = Alveus of hippocampus BLA = Basolateral amygdala CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen
K11857.indb 157
157
DG = Dentate gyrus Ent = Entorhinal cortex MCtx = Motor cortex opt = Optic tract Pir = Piriform cortex S = Subiculum SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:33:22 PM
158
Atlas of the Neonatal Rat Brain
Figure 151 P-14, S15 AICtx = Agranular insular cortex alv = Alveus of hippocampus CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen
K11857.indb 158
DG = Dentate gyrus Ent = Entorhinal cortex MCtx = Motor cortex Pir = Piriform cortex S = Subiculum SCtx = Somatosensory cortex VCtx = Visual cortex
10/26/10 4:33:23 PM
Sagittal Plates
159
Figure 152 P-14, S16 CA1 = CA1 field of hippocampus CA2 = CA2 field of hippocampus CA3 = CA3 field of hippocampus cc = Corpus callosum CPu = Caudate putamen DG = Dentate gyrus MCtx = Motor cortex SCtx = Somatosensory cortex VCtx = Visual cortex
K11857.indb 159
10/26/10 4:33:24 PM
160
Atlas of the Neonatal Rat Brain
Figure 153 P-14, S17 Hfor = Hippocampal formation
K11857.indb 160
10/26/10 4:33:25 PM
Sagittal Plates
161
Figure 154 P-14, S18 Ctx = Cortex
K11857.indb 161
10/26/10 4:33:25 PM
162
Atlas of the Neonatal Rat Brain
Figure 155 P-14, S19 Ctx = Cortex
K11857.indb 162
10/26/10 4:33:26 PM
Sagittal Plates
163
Figure 156 P-14, S20 Ctx = Cortex
K11857.indb 163
10/26/10 4:33:27 PM
164
Atlas of the Neonatal Rat Brain
Figure 157
K11857.indb 164
10/26/10 4:33:28 PM