The Neurobiological Basis of Memory
The Neurobiological Basis of Memory: A System, Attribute, and Process Analysis
Springer | Biomedical Science | October 08, 2015 | ISBN-10: 3319157582 | 419 pages | pdf | 13.9 mb
Springer | Biomedical Science | October 08, 2015 | ISBN-10: 3319157582 | 419 pages | pdf | 13.9 mb
by Pamela A. Jackson (Editor), Andrea A. Chiba (Editor), Robert F. Berman (Editor), Michael E. Ragozzino (Editor)
Provides contemporary findings and theoretical perspectives on neurobiology of memory
Gives comprehensive information on how various brain systems contribute to memory
Elucidates the different brain systems that process mnemonic information
Emphasizes the importance of studying memory both in animals and humans
From the Back Cover
This exciting volume offers an up-to-date tour of current trends in the neurobiology of memory while saluting Raymond Kesner's pioneering contributions to the field as a theorist and researcher, teacher and mentor. Starting with his signature chapter introducing the Attribute Model of Memory, the first half of the book focuses on the central role of the hippocampus in processing dimensions of space and time, and branches out to memory system interactions across brain structures. Later chapters apply the attribute model to multiple functions of memory in learning, and to specific neurological contexts, including Huntington's disease, traumatic brain injury, and Fragile X. As a bonus, the book concludes with an essay on Kesner's life and work, and reminiscences by colleagues.
Among the topics covered:
How the hippocampus supports the spatial and temporal attributes of memory.
Self-regulation of memory processing centers of the brain.
Multiple memory systems: the role of Kesner's Attribute Model in understanding the neurobiology of memory.
Pattern separation: a key processing deficit associated with aging?
Prefrontal cortex and basal ganglia attributes underlying behavioral flexibility.
Memory disruption following traumatic brain injury.
Cognitive neuroscientists, neuropsychologists, gerontologists, psychiatrists, and neurobiologists will find The Neurobiological Basis of Memory both enlightening and inspiring–much like Kesner himself.
About the Author
Robert F. Berman, Ph.D. is Professor and Vice Chair for Research in the Department of Neurological Surgery and a member of the Center for Neuroscience at the University of California Davis. He is also Director of Research for the Neurotrauma Research Laboratories on the faculty of the UC Davis M.I.N.D. Institute. Andrea Chiba is an Associate Professor in the Department of Cognitive Science and in the Program for Neuroscience and Computational Neuroscience at the University of California, San Diego. She is Science Director for the Temporal Dynamics of Learning Center, an NSF Science of Learning Center.
Pamela Jackson is a Professor in the Department of Psychology at Radford University. Her postdoctoral training, with Dr. Raymond Kesner, was in Physiological Psychology at the University of Utah. Her research interests have ranged from spatial learning in hippocampal-lesioned rats and pigeons to the role of the parietal and frontal cortices in implicit and explicit memory.
Michael Ragozzino obtained his Ph.D from the University of Virginia conducting research on the neurochemical mechanisms that underlie learning and memory. He has been a faculty member at the University of Illinois at Chicago since 1999. He currently serves on the editorial board of Behavioral Neuroscience and as director of the Laboratory of Integrative Neuroscience at the University of Illinois at Chicago.
Number of Illustrations and Tables
43 illus., 30 in colour
Topics
Neuropsychology
Neurosciences
Biological Psychology
Behavioral Sciences