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Paxinos and Petrides' The Rhesus Monkey Brain in Stereotaxic Coordinates is the most comprehensive and accurate atlas of the monkey brain currently available. The fourth edition of this classic book will be a complete revision, featuring many improvements and upgrades. Containing coronal diagrams and accompanying photographic plates spaced at 120 µm intervals, this atlas follows the same nomenclature and abbreviations conventions as the mouse, rat, chicken, and human brain atlases published under George Paxinos' leadership. This atlas is suitable for researchers who work with both monkeys and humans. Constructed by the established leaders in neuroanatomical atlas development, the new edition will again be the indispensable resource for all scientists working on the primate nervous system.
Auteur
Professor Paxinos 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. Dr. 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. He was a member of the first International Consortium for Brain Mapping, a UCLA based consortium that received the top ranking and was funded by the NIMH led Human Brain Project. Dr. Paxinos has been honored with more than nine distinguished awards throughout his years of research, including: The Warner Brown Memorial Prize (University of California at Berkeley, 1968), The Walter Burfitt Prize (1992), The Award for Excellence in Publishing in Medical Science (Assoc Amer Publishers, 1999), The Ramaciotti Medal for Excellence in Biomedical Research (2001), The Alexander von Humbolt Foundation Prize (Germany 2004), and moreDr. Petrides is a Professor at the Montreal Neurological Institute, McGill University. He is a Fellow of the Royal Society, the Royal Society of Canada and the American Academy of Arts and Sciences. His research focuses on the neural bases of cognitive processes and involves the analysis of the functions of the frontal, temporal, and parietal neocortex and related subcortical neural structures. His research is also focussed on examination of the sulcal and gyral morphology of the human cerebral cortex and comparative architectonic studies. He has authored numerous journal articles (h-index = 88; i10-index 189) and is the author of The Human Cerebral Cortex (2011), Neuroanatomy of Language Regions of the Brain (2013) as well as co-author of 3 other atlases.Dr. Evrard completed his Doctorate in Sciences at the University of Liège, Belgium, with postdoctoral training at Boston University, the Barrow Neurological Institute, and the Max Planck Institute for Biological Cybernetics. He is a Research Scientist at the Nathan Kline Institute in the state of New York, USA, a group leader at the Max Planck Institute for Biological Cybernetics and the Center for Integrative Neuroscience in Tübingen, Germany, and a Senior Investigator at the International Center for Primate Brain Research in Shanghai, PRC. He is also a guest scientist at the Yale School of Medicine and the University of Leuven. In addition to a general interest in the organization of the primate brain, his research concentrates on the peripheral and central pathways of interoception and autonomic control in the context of complex behaviors, requiring the co-regulation of brain and bodily states, and providing the basis for subjective feelings in humans. His experiments combine architectonics, neuronal tracing, electrophysiology, functional magnetic resonance imaging and behavioral tasks. Dr. Evrard's recent works include a new architectonic and connectivity parcellation of the insular cortex, the demonstration of the occurrence of the von Economo neuron and its projections in the macaque monkey, a mapping of bodily parts in the primate limbic cortex, and novel functional evidence for the role of the anterior insula in regulating functional brain networks.