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The result of 3 decades of original research and instruction by internationally referenced authors, Drs. Joseph Altman and Shirley A. Bayer, the Atlas of Prenatal Rat Brain Development provides a complete, state-of-the-art presentation of the developing prenatal rat brain. With the aid of advanced computer graphics, Altman and Bayer revolutionize the study of the highly vulnerable prenatal brain and bring us closer to understanding the dynamics of its development, its malfunctions, deficits, and abnormalities. Their contributions to the field of brain research, and hence to our knowledge of brain disorders, are unsurpassed. The Atlas contains more than 265 platesÛeach plate accompanied by a computer-aided drawing, a 3-dimensional reconstruction of brain slices never before achieved with such accuracy and clarity, that assists in the visualization of the brain and of the relationships among various brain regions. A new, user-friendly alphanumeric coding system is used, allowing for easy identification of brain regions.
This atlas provides an accurate and detailed depiction of all brain structures at fetal stage E17.5, Day of birth, and Day 6 postnatal. In addition to brain structures, the atlas delineates peripheral nerves, ganglia, arteries, veins, muscles bones and other organs. It is an indispensable guide for the interpretation of nervous system changes in gene knockout and transgenic mice. Contains: 43 photographs and drawings of Nissl-stained coronal sections of the brain of a fetal mouse at E17.5 days, 65 photographs and drawings of Nissl-stained coronal sections of the brain of a mouse on the day of birth, and 73 photographs and drawings of Nissl-stained coronal sections of the brain of a mouse aged 6 days postnatal. The drawings are based on the study of sections stained with Nissl and a range of neuroactive substances. In addition to brain structures, the atlas delineates peripheral nerves, ganglia, arteries, veins, muscles bones and other organs.
Representing the state-of-the-art in neurochemical mapping, Chemoarchitectonic Atlas of the Developing Mouse Brain provides a complete, full-color look at the developing mouse brain. Hundreds of coronal sections are presented, clearly illustrating structures at progressive stages of brain development.
Atlas of the Neonatal Rat Brain provides photographic, histological illustrations of the anatomical features of the neonatal rat brain at postnatal (P) days P-1, P-7, and P-14. The sections are Nissl stained with Cresyl violet, creating photomicrographs with high resolution and clarity. The structures are directly labeled on the images, making it e
This third edition of the standard reference on the nervous system of the rat is a complete and updated revision of the 1994 second edition. All chapters have been extensively updated, and new chapters added covering early segmentation, growth factors, and glia. The book is now aligned with the data available in the Rat Brain in Stereotaxic Coordinates, making it an excellent companion to this bestselling atlas. Physiological data, functional concepts, and correlates to human anatomy and function round out the new edition. - Designed to be used in conjunction with the bestselling Rat Brain in Stereotaxic Coordinates - New to this edition is inclusion of physiological data, functional concepts, and correlates to human anatomy and function in each chapter - Contains new chapters on early segmentation of the central nervous system, growth factors and glia
Paxinos and Ashwell's Atlas of the Developing Rat Nervous System, Fourth Edition, builds on the many excellent features of previous editions that have made this book the most cited atlas of the developing rat brain. It provides the most comprehensive depiction of not only the structures in the brain and spinal cord, but also of the peripheral nervous system and target organs that are important for developmental neurobiologists, allowing the user to follow neural structures through the developing embryo in both time and space. The nomenclature and identification of structures in this edition have been thoroughly updated to ensure accuracy and compatibility. - Provides detailed and accurate coverage of the developing rat nervous system from Embryonic Day 11 to Day of Birth - Contains 200 photographs and accompanying diagrams of coronal or sagittal sections of rats aged E11 – E19 - Presents new sections on Histology, Neurogenetics, Imaging, MRI Histology and Panneuronal Markers - Delineates brain structures and peripheral nerves, ganglia, arteries, veins, muscles, bones and other important organs - Serves as an essential tool for researchers in the interpretation of findings resulting from the genetic manipulation of brain development - Includes the Expert Consult eBook version, compatible with PC, Mac, and most mobile devices and eReaders, which allows readers to browse, search, and interact with content
The Atlas of the Prenatal Mouse Brain is the latest addition to Academic Press' list of atlases for neuroscientists and neuroscience students. It seeks to fill an urgent need for a comprehensive atlas of the developing mouse brain for use in studies of both normal and abnormal development. High-quality photomicrographs of brain sections are depicted in sagittal; coronal, and horizontal planes for four gestational age groups. Each photomicrograph is accompanied by a fully labelled, precision-drawn diagram for easy identification of brain structures. Researchers and students using normal, transgenic, or mutant mouse preparations in developmental neurobiology, neurotoxicology, and biotechnology may find this a useful guide.
The Anatomical Basis of Mouse Development by Kaufman and Bard is an essential anatomical resource for developmental biologists needing to know about any aspect of mouse developmental anatomy, as well as for geneticists using the mouse embryo as a model. This book is a companion to Kaufman's The Atlas of Mouse Development and details the developmental anatomy of the early embryo, the transitional tissues, and all the major organ systems. It also includes extensive reference indexes detailing developmental stage criteria, when tissues first appear, and the constituent tissues of embryos at each of the 26 Theiler stages, as well as tissue and author indexes and a glossary. Key features: * Gives anatomical descriptions from oogenesis to birth at a level of detail that often goes beyond that found in the literature. * Provides detailed explanations for geneticists and molecular biologists with limited anatomical background to help them understand the emergence of all the major structures in the mouse embryo. * Contains comprehensive indexes detailing the appearance of over 1000 organs, tissues and their components at different stages of mouse embryogenesis, together with the Theiler developmental stages (1-26) at which each first appears. * Includes comparisons with normal and abnormal human development * Has over 100 clear line diagrams showing mouse developmental anatomy as well as lineage relationships for the major organ systems. This book will be a key reference work for anyone who needs to understand developmental anatomy in normal and mutant mice.
Only five years ago, nobody in his right mind would have consid ered publishing a book on reeler as a model for brain develop ment. Although this interesting mutation has been with us for half a century, it is fair to say that, in spite of a wave of enthusiasm in the late sixties and early seventies, generated primarily by Sidman, Caviness and colleagues, studies of reeler mice fell pro gressively out of fashion during the next two decades. All that changed almost overnight when the cloning of the reeler gene, dubbed reelin, was reported in Tom Curran's laboratory in 1995. The fact that the same gene was identified at the same time independently by two other groups using positional cloning sug gested strongly that reelin was the right candidate. Although the key experiments of transgenic rescue have not been made (and perhaps will never be), the equation "reeler is reelin" has been established beyond reasonable doubt, as alterations of the reelin gene and/or its expression have been found in at least five alleles of reeler and in the mutation Shaking Rat Kawasaki (SRK), an ortholog of reeler.
we might seek alternative sources of donor tissues. Genetic en- neering, expansion of precursor cells, generation of immortalized cell lines, and transplantation between species are all under active investigation. Although significant difficulties remain for each of these alternatives, the problems appear soluble and relevant knowledge is expanding rapidly. As we enter the twenty-first century, the place of neural tra- plantation in experimental neuroscience is continuing to evolve. Rather than being a topic in its own right, neural transplantation increasingly serves as just another technique in the researcher's armory--alongside lesions, pharmaceuticals, gene transfer, and a variety of other techniques--for the experimental manipulation of brain structure and function. This is particularly true for studies of degeneration, plasticity, regeneration, and recovery of function in the nervous system, topics of increasing importance as experimental neurobiology is required to serve the higher needs of neurological and mental health in aging societies. Within this evolving context, Neural Transplantation Methods seeks to serve a particular need: to provide experimental neu- scientists with a source book of information to enable them to select and adapt transplantation techniques to their own expe- mental programs. All authors have been asked to address prac- cal issues, to enable the reader to assess what is available, what are the alternatives, what are the practical issues to be resolved in applying a particular protocol and getting it to work reliably in their unique experimental context.