David Gozal. David Grand. Treatment of Dystonia. Dirk Dressler. Diffusion MRI. Heidi Johansen-Berg. The Anatomy of Violence. Adrian Raine. A Practical Approach to Movement Disorders. Evidence-Based Neurology. Bart Demaerschalk. Why We Snap. Douglas Fields. John Rubenstein. Movement Disorder Surgery. Roy AE Bakay.
Neurodegenerative Disorders. Orla Hardiman. White Matter Dementia. Christopher M. Neural Crest Cells.
Paul Trainor. Mario Manto.
The Neostriatum. Ivan Divac.
The Mouse Nervous System - 1st Edition
Nicoladie Tam. Vestibular Migraine and Related Syndromes. Bruno Colombo. The Fine Arts, Neurology, and Neuroscience. Dahlia W. Bettina Studer. Magnetic Resonance Imaging in Movement Disorders. Paul Tuite. Chronic Pain and Brain Abnormalities. Carl Y. Alexei V. Neurobiology of the Locus Coeruleus. Charles D. Neuroscience in Medicine. Michael Conn. Brain-Computer Interface Research. Christoph Guger. Biometals in Neurodegenerative Diseases. Anthony R. Auditory and Vestibular Efferents. David K. Computational Neurostimulation.
Sven Bestmann. Infantile Spasms.
James D. Frost Jr.
Han-Ting Zhang. Neurobiology of Spinal Cord Injury. Robert G. Two Faces of Evil: Cancer and Neurodegeneration. Thomas Curran.
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The Human Nervous System. Juergen K. Igor A. Claus W. Axons and Brain Architecture. Kathleen Rockland. Animal Vocal Communication. Neuronal diversity was driven by genes encoding cell identity, synaptic connectivity, neurotransmission, and membrane conductance. We discovered seven distinct, regionally restricted astrocyte types that obeyed developmental boundaries and correlated with the spatial distribution of key glutamate and glycine neurotransmitters.
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In contrast, oligodendrocytes showed a loss of regional identity followed by a secondary diversification. With most important information already provided in the first half of the book, these later chapters serve to assist the reader in connecting the dots on how all those structures function together.
In addition to providing background knowledge about the nervous system of the mouse, this book is also user-friendly because a table of contents that is chapter-specific is present at the beginning of each respective chapter. The helpfulness continues at the conclusion of chapters where a list of references is presented so the reader can read more about an intriguing subject.
Perhaps the most unique feature of this book is the abbreviations list which is located near the end of certain chapters. This list is beneficial to both the writers and readers; the writers can provide the intended definitions which will lessen the likelihood that the reader searches and finds an inaccurate abbreviation. A textbook of this size is expected to contain an abundance of information about the nervous system of the mouse, which it does.
Although its content is focused on an audience of molecular biologists and neuroscientists, the cleverly organized lay Charles Watson is a neuroscientist and public health physician.
He has published over refereed journal articles and 40 book chapters, and has co-authored over 25 books on brain and spinal cord anatomy. The Paxinos Watson rat brain atlas has been cited over 80, times. His current research is focused on the comparative anatomy of the hippocampus and the claustrum. He was awarded the degree of Doctor of Science by the University of Sydney in and received the Distinguished Achievement Award of the Australasian Society for Neuroscience in He is the author of almost 50 books on the structure of the brain of humans and experimental animals, including The Rat Brain in Stereotaxic Coordinates, now in its 7th Edition, which is ranked by Thomson ISI as one of the 50 most cited items in the Web of Science.
Paxinos paved the way for future neuroscience research by being the first to produce a three-dimensional stereotaxic framework for placement of electrodes and injections in the brain of experimental animals, which is now used as an international standard. Puelles has held various positions teaching human anatomy and conducting research in neuroembryology and comparative neuroanatomy at the Universities of Granada, Sevilla, Badajoz, Cadiz and Murcia in Spain.