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Neuroscience

A Mathematical Primer

  • Textbook
  • © 2002

Overview

Authors:
  1. Alwyn Scott

    1. Department of Mathematics, University of Arizona, Tucson, USA

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Table of contents (12 chapters)

  1. Front Matter

    Pages I-XX
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  2. A Short History of Neuroscience

    Pages 1-23

  3. Structure of a Neuron

    Pages 25-48

  4. Nerve Membranes

    Pages 49-66

  5. The Hodgkin-Huxley (H-H) Axon

    Pages 67-93

  6. Leading-Edge Models

    Pages 95-113

  7. Recovery Models

    Pages 115-138

  8. Myelinated Nerves

    Pages 139-163

  9. Ephaptic Interactions Among Axons

    Pages 165-185

  10. Neural Modeling

    Pages 187-232

  11. Constructive Brain Theories

    Pages 233-255

  12. Neuronal Assemblies

    Pages 257-292

  13. The Hierarchical Nature of Brain Dynamics

    Pages 293-313

  14. Back Matter

    Pages 315-352
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Keywords

About this book

Arguably the most intricate dynamic object in the universe, the human brain is an unsounded source of wonder for the scienti?c community. The primary aim of this book is to provide both students and established - vestigators in the growing area of neuroscience with an appreciation of the roles that mathematics may play in helping to understand this en- maticorgan. Alongwithdiscussionsofresultsobtainedbytheneuroscience community, emphasis is placed on suggesting fruitful research problems for those planning to embark on mathematical studies in neuroscience. To make the overall perspectives understandable to philosophers and psychologists, essential features of the discussions are presented in ordinary English, with more detailed mathematical comments in appendices and footnotes. Although it attempts to maintain both clarity and biological relevance, this is not a text on the anatomy of nerve systems; thus readers should bring some knowledge of neurophysiology through other courses, associated studies, or laboratory research. It is a guiding theme throughout the book that the brain is organized into several quite di?erent levels of dynamic activity. As will be seen, these levels are hierarchically structured, beginning with the molecular dynamics ofintrinsicmembraneproteinsandproceedingupward,throughtheswit- ing properties of active membrane patches and synapses, the emergence of impulses on active ?bers, overall properties of individual neurons, and the growth of functional assemblies of interacting neurons, to the global - namics of a brain. At each level of description, reality turns di?erent facets of her mystery to us, and diverse phenomena make their contributions to the brain’s collective behavior.

Authors and Affiliations

  • Department of Mathematics, University of Arizona, Tucson, USA

    Alwyn Scott

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