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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aCellular neurophysiology and integration $ean interpretive introduction /$fWilliam R. Uttal
205   $a1st ed.
210  1$aNew York :$cPsychology Press,$d2014.
215   $a1 online resource (606 p.)
300   $aFirst published 1975 by Lawrence Erlbaum Associates, Inc.
311   $a0-89859-429-4 
311   $a1-306-34575-8 
320   $aIncludes bibliographical references and indexes.
327   $aCover; Title; Copyright; Dedication; CONTENTS; Preface; Acknowledgments; Chapter 1. Introduction; A. The Contemporary Significance of Neurophysiology; B. Plan and Organization of the Book; Chapter 2. A Brief History of Cellular Neurophysiology; A. Classic Views of Nervous Action; B. The Origin of the Idea of the Electrical Basis of Nervous Action; C. Stimulators and Recorders; D. Intracellular Techniques; E. The Membrane Theory of Neuronal Action; Chapter 3. Neuroanatomy; A. Gross Anatomy of the Human Nervous System; B. Anatomy of Receptors; C. Anatomy of Transmission Neurons
327   $aD. Anatomy of Integrating NeuronsE. Anatomy of the Plasma Membrane; Chapter 4. Electrophysiological Techniques; A. Electrophysiological Electrodes; B. Stereotaxic Instruments and Microelectrode Manipulators; C. Preamplifiers; D. Power Amplifiers; E. Displays and Recorders; F. Computerized Automatic Displays; G. Stimulators; Chapter 5. The Chemical Basis of Neuroelectric Activity: The Resting Potential and a Taxonomy of Action Potentials; A. Passive Forces; B. Active Forces or Pumps; C. Establishment of the Resting Potential; D. A Taxonomy of Action Potentials
327   $aChapter 6. Cellular Aspects of the Transduction ProcessA. Introduction; B. Receptor and Generator Potentials-A Definition; C. Transduction in the Photoreceptor; D. Transduction in the Auditory Receptor; E. Transduction in the Somesthetic Receptor; F. Transduction in the Olfactory Receptor; G. Transduction in the Gustatory Receptor; Chapter 7. The Transmission Process; A. Introduction; B. Decremental Conduction; C. The Propagated Spike Action Potential; D. Some Experimental Methods; E. Transmission Properties of Single Axons; Chapter 8. Compound and Pooled Action Potentials
327   $aA. Pooled ResponsesB. Compound Responses; C. Do Hypersynchronized Compound Responses Truly Represent Natural Coding Methods?; Chapter 9. The Synapse; A. Electrical and Chemical Synapses; B. Chemically Mediated Synaptic Transmission; C. Excitation and Inhibition: Depolarization and Hyperpolarization; D. Presynaptic and Postsynaptic Inhibition; E. A Special Form of Synapse: The Neuromuscular Junction; Chapter 10. Neuronal Integration; A. Introduction; B. Model Biological Systems; C. Basic Mechanisms; D. Network Processes; Chapter 11. The Aplysia: Anatomy and Physiology of a Model Preparation
327   $aA. Taxonomy and AnatomyB. The Biochemistry of Synaptic Action; C. Patterns of Excitation and Inhibition; D. Motor Control and Reflexes; E. "Learning" in Simple Neuronal Nets; F. Coding and Decoding; Chapter 12. A Summary of Emerging Principles; Bibliography; Author Index; Subject Index
330   $aFirst published in 1975. Routledge is an imprint of Taylor & Francis, an informa company.
606   $aNeurophysiology
606   $aNeurons
615  0$aNeurophysiology.
615  0$aNeurons.
676   $a612/.8
676   $a612.8
700   $aUttal$b William R.$0854746
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910813615103321
996   $aCellular neurophysiology and integration$94060957
997   $aUNINA