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Library | Materyal Türü | Barkod | Yer Numarası | Durum |
|---|---|---|---|---|
Searching... Pamukkale Merkez Kütüphanesi | Kitap | 0023489 | QP301.G367 2001 | Searching... Unknown |
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Özet
Özet
There is no shortage of research findings in the burgeoning field of the neurosciences and molecular biology and their impact on the physiology of exercise.
Now Neuromuscular Aspects of Physical Activity brings together--in one focused text--the latest research compiled from an array of sources and fields of science, including neuroscience, kinesiology, molecular biology, and physiology. The comprehensive approach makes it an excellent textbook for undergraduate and graduate students enrolled in muscle physiology courses. It's also an outstanding reference for exercise and muscle physiologists.
This advanced text is thoughtfully organized in a logical way, building from a foundational discussion of muscle fibers and motor units to cover the neuromuscular responses to physical activity.
Among the many features that make this text invaluable to students are discussions of current issues in the field, especially the debate surrounding the sources and significance of fatigue at different levels of the nervous system and whether the spinal cord can "learn."
This thorough and remarkably current text features the following:
-More than 155 diagrams
-Meticulous, up-to-the-minute references
-Highlights of fatigue, endurance training, resistance training, and inactivity
-Topics sparsely covered in research literature
No other text so clearly ties recent research information from neuroscience and molecular biology to our understanding of the physiology of exercise.
Author Notes
Philip Gardiner, PhD, is currently a professor in the department of kinesiology at the University of Montreal, Quebec, Canada. He also is an associate member of the school of physical and occupational therapy at McGill University and associate researcher at the institute de kinesitherapie at the Free University of Brussels.
For 25 years, Dr. Gardiner has conducted and published research pertaining to the effects of physical activity on the neuromuscular system, and his work has appeared in leading physiology journals. He is president of the Canadian Society for Exercise Physiology.
The former editor of the Canadian Journal of Applied Physiology , Dr. Gardiner obtained his doctorate in exercise physiology from the University of Alberta at Edmonton, Alberta, Canada.
Reviews (1)
Choice Review
This is a welcome addition to the small number of current books on neuromuscular exercise physiology. Gardiner is a recognized expert in the properties and function of motor units and related research topic areas; the publication also stems from the author's extensive teaching experience in these areas. His background guides his topic selection and the beneficial interjection of his perspective. The book's six-chapter arrangement begins with an extensive treatment of muscle fibers and motoneurons and proceeds to the effects of fatigue, endurance and strength training, and decreased activity. It reads like a series of well-written and thematically interwoven review-of-the-literature papers, supplemented with plenty of figures and replete with instances of in-depth discussion of specific studies. It also includes some descriptions and critical reviews of pertinent laboratory methodologies. Readers need a solid background in undergraduate-level general or exercise physiology. Previous knowledge of animal models (rodents especially), with particular regard to anatomy, biochemistry, and some molecular biology, will be useful. The book could be used by graduate students in a course on neuromuscular physiology and as a resource for faculty members in associated fields. L. P. Koziris University of North Texas
Table of Contents
| Preface |
| Acknowledgments |
| Chapter 1 Muscle Fiber Types |
| Grouping Fibers by Myosin Heavy-Chain (MHC) Composition |
| Functional Properties of Fibers Containing Different Myosin Heavy-Chain Profiles |
| Fiber Types and Performance |
| Summary |
| Chapter 2 Motoneurons and the Muscle Units They Innervate |
| The Muscle Unit and Muscle Unit Types |
| The Motoneuron Component of the Motor Unit |
| The Heckman-Binder Model of Motor Unit Recruitment |
| Motor Unit Recruitment During Different Types of Voluntary |
| Contractions |
| Summary |
| Chapter 3 Neuromuscular Fatigue |
| Two Basic Fatigue Mechanisms Involving the Nervous System: Neuromuscular Transmission Failure and Decreased Motoneuron Activity |
| Reduced Motoneuron Activity During Various Types of Contractions |
| Evidence From Reduced Animal Preparations on Mechanisms of Neuromuscular Fatigue |
| Summary |
| Chapter 4 Endurance Training of the Neuromuscular System |
| Muscle Adaptations |
| The Neuromuscular Junction |
| Motoneuron Adaptations to Endurance Training |
| Spinal Cord Adaptations to Endurance Training |
| Summary |
| Chapter 5 Strength Training |
| Acute Effects of Strength Training on Protein Synthesis and Degradation |
| The Chronic Effect of Resistance Overload on Muscle Phenotype |
| Neural Effects of Resistance Training |
| Summary |
| Chapter 6 Neuromuscular Responses to Decrease in Normal Activity |
| General Principles Underlying Neuromuscular Responses to Reduced Activity |
| Models of Decreased Neuromuscular Usage |
| Summary |
| References |
| Index |
| About the Author |