Fr. 107.00

Biochemical Basis of Sports Performance

English · Paperback / Softback

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Zusatztext This well-written book does an excellent job of sorting through the volumes of information on physiology and sports to provide key concepts necessary in order to maximise performance while minimizing injury and overtraining. Informationen zum Autor Michael Gleeson is Professor of Exercise Biochemistry, and Ronald Maughan is Professor of Sport and Exercise Nutrition, both at the School of Sport and Exercise Sciences, Loughborough University, UK Klappentext Introduces the student of sports science or exercise physiology to the biochemical processes that underpin exercise performance and the adaptations that occur with training. The principles of exercise biochemistry are introduced in a context that is immediately relevant to the student of sports science. Zusammenfassung Introduces the student of sports science or exercise physiology to the biochemical processes that underpin exercise performance and the adaptations that occur with training. The principles of exercise biochemistry are introduced in a context that is immediately relevant to the student of sports science. Inhaltsverzeichnis Preface Introduction: The biochemical basis of exercise and sport Learning Objectives Introduction Historical perspective Evolution of records The appliance of science The abuse of science Key points The Weightlifter Learning Objectives Introduction Muscle structure and function Proteins: structural and functional characteristics Proteins as enzymes Energy for muscle contraction Nutritional effects on strength training and performance Key points Selected further reading The Sprinter Learning Objectives Introduction Anaerobic metabolism Metabolic response to very high intensity exercise Loss of adenine nucleotides The cellular energy charge and the adenylate pool Causes of fatigue in sprinting Post-exercise recovery: the resynthesis of phosphocreatine Nutritional effects on sprint performance Key Points Selected further reading Middle Distance Events Learning Objectives Introduction Energy and oxygen cost of middle distance runnning Glycolysis The glycolytic pathway Oxidative metabolism of carbohydrate Fatigue mechanisms in middle distance events Recovery after exercise Nutritional effects on the performance of the middle distance athlete Key points Selected further reading The endurance athlete Learning objectives Introduction Energy supply Aerobic power Fractional utilization of aerobic capacity Energy metabolism Integration and regulation of fuel use Fatigue in prolonged exercise The role of the brain in fatigue Nutrition and endurance exercise performance Key points Selected Further reading The Games Player Learning Objectives Introduction Activity patterns and work rate in games play Metabolic responses to intermittent high-intensity exercise Fatigue in multiple sprint sports Nutritional strategies for team sports athletes Key points Selected further reading Sporting Talent: The genetic basis of athletic capability Learning Objectives Introduction; factors determining success in sport The nature of genetic material Principles of heredity Gene doping: a realistic prospect? Key points Selected further reading Adaptations to training Learning Objectives Introduction Training strategies and the associated adaptations Training for strength Training for speed Training for middle distance: increasing anaerobic capacity Training for endurance: increasing aerobic capacity Mechanisms and limitations to adaptation Overreaching and overtraining Exercise training, immune function, and susceptibility to infection Effects of d...

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