Nerve and Muscle / Edition 3

Nerve and Muscle / Edition 3

by R. D. Keynes, D. J. Aidley, David J. Aidley
     
 

ISBN-10: 0521805848

ISBN-13: 9780521805841

Pub. Date: 03/28/2001

Publisher: Cambridge University Press

An understanding of the physiology and function of nerve and muscle is fundamental to our knowledge of how the human body and the bodies of other animals function. In the third edition of this highly readable and concise introductory textbook, the authors begin with a discussion of the nature of nerve impulses as electrical events. They go on to consider communication

Overview

An understanding of the physiology and function of nerve and muscle is fundamental to our knowledge of how the human body and the bodies of other animals function. In the third edition of this highly readable and concise introductory textbook, the authors begin with a discussion of the nature of nerve impulses as electrical events. They go on to consider communication between nerve cells via synaptic transmission, and finally discuss the nature of muscular contraction, relating muscle cellular structure to contractile function. This is a subject that continues to generate exciting discoveries and this edition includes new material that reflects this, including some of the experimental evidence. The reader will find up-to-date detail of the molecular structure of ion channels and the molecular basis of muscular contraction. Nerve and Muscle is essential reading for all students taking university courses in neurobiology, physiology, cell biology, and preclinical medicine.

Product Details

ISBN-13:
9780521805841
Publisher:
Cambridge University Press
Publication date:
03/28/2001
Series:
Studies in Biology
Edition description:
REV
Pages:
192
Product dimensions:
5.98(w) x 8.98(h) x 0.43(d)
Age Range:
11 - 14 Years

Table of Contents

Preface; 1. Structural organization of the nervous system; 2. Resting and action potentials; 3. The ionic permeability of the nerve membrane; 4. Membrane permeability changes during excitation; 5. The molecular structure and functioning of voltage-gated ionic channels; 6. Cable theory and saltatory conduction; 7. Neuromuscular transmission; 8. Synaptic transmission in the nervous system; 9. Skeletal muscles; 10. The mechanism of contraction in skeletal muscle; 11. Non-skeletal muscles; Further reading; References; Index.

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