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Technological advances over the last two decades have placed genetic research at the forefront of sport and exercise science. It provides potential answers to some of contemporary sport and exercise’s defining issues and throws up some of the area’s most challenging ethical questions, but to date, it has rested on a fragmented and disparate literature base. The Routledge Handbook of Sport and Exercise Systems Genetics constitutes the most authoritative and comprehensive reference in this critical area of study, consolidating knowledge and providing a framework for interpreting future research findings. Taking an approach which covers single gene variations, through genomics, epigenetics, and proteomics, to environmental and dietary influences on genetic mechanisms, the book is divided into seven sections. It examines state-of-the-art genetic methods, applies its approach to physical activity, exercise endurance, muscle strength, and sports performance, and discusses the ethical considerations associated with genetic research in sport and exercise. Made up of contributions from some of the world’s leading sport and exercise scientists and including chapters on important topical issues such as gene doping, gender testing, predicting sport performance and injury risk, and using genetic information to inform physical activity and health debates, the handbook is a vital addition to the sport and exercise literature. It is an important reference for any upper-level student, researcher, or practitioner working in the genetics of sport and exercise or exercise physiology, and crucial reading for any social scientist interested in the ethics of sport.
Epigenetics of Exercise and Sports: Concepts, Methods, and Current Research explains fundamental epigenetic processes and how these are altered by exercise and sports. After a brief review of fundamental epigenetic biology, this all-new volume in the Translational Epigenetics series offers step-by-step instruction in how epigenetic factors are investigated for their influence over exercise related traits of human physiology, disease, and injury. The current state of knowledge in the field and recent findings are discussed in-depth, illuminating how exercise and sports performance may epigenetically modify our physiology, disease and injury risks, and how this knowledge can be applied in personalized exercise approaches, diagnostics, and treatment. This book also explores the shortcomings of explaining exercise related phenomena using only genomics and traditional biochemical techniques, setting the scene for a paradigm shift in exercise biology. In addition, over a dozen international specialists contribute chapters on exercise and sports epigenetics, and their influence over metabolism, obesity, aging, immunity, and neurological disease, as well as the epigenetic impacts of concussions and sports doping. A concluding chapter discusses ongoing themes in the field and outlooks for future research. - Thoroughly examines fundamental concepts in exercise and sports epigenetics, methods for new research, and known impacts for human physiology, disease, and clinical outcomes - Discusses exercise and sports epigenetics in relation to metabolism, obesity, aging, immunity, and neurological disease, concussion, and sports doping, among other topics - Includes preliminary information on exercise epigenetics and covid-19 infection - Features chapter contributions from international experts in the field
The 4th edition of the Oxford Textbook of Children's Sport and Exercise Medicine is the definitive single-volume reference in the field presented in four sections Exercise Science; Exercise Medicine; Sport Science; and Sport Medicine.
Regulating Bodies offers the first global history of protective policies in elite sports and asks how far we are willing to go in the name of sporting excellence.
From an evolutionary perspective, our species has relied upon physical activity for most of its history to survive and has had to escape from predators, to scavenge for food, and to use physique to work or build necessary means for everyday life. Physical activity has been part of our evolution and progress since the very beginning and, consequently, our entire body has been programmed to be active physically. In the last 20 years, scientific research has increasingly shown that our ancient survival principle has beneficial effects not only on the cells and organs involved in physical activities but on the metabolism of the entire organism, influencing the homeostasis and integration of all bodily functions, likely stimulating the production of hormones and other regulatory molecules, with each affecting vital signalling pathways. Most of the web of factors involved in molecular signalling upon exercise are suspected to be centrally controlled by the brain, which has been reported to be deeply modified by physical activity. Such complexity requires a multifaceted approach to shed light on the molecular interactions that occur between physical activity and its outcome at a cellular level.
Fully revised and expanded, the second edition of Molecular Exercise Physiology offers a student-friendly introduction. It introduces a history documenting the emergence of molecular biology techniques to investigate exercise physiology, the methodology used, exercise genetics and epigenetics, and the molecular mechanisms that lead to adaptation after different types of exercise, with explicit links to outcomes in sport performance, nutrition, physical activity and clinical exercise. Structured around key topics in sport and exercise science and featuring contributions from pioneering scientists, such as Nobel Prize winners, this edition includes new chapters based on cutting-edge research in epigenetics and muscle memory, satellite cells, exercise in cancer, at altitude, and in hot and cold climates. Chapters include learning objectives, structured guides to further reading, review questions, overviews of work by key researchers and box discussions from important pioneers in the field, making it a complete resource for any molecular exercise physiology course. The book includes cell and molecular biology laboratory methods for dissertation and research projects in molecular exercise physiology and muscle physiology. This book is essential reading for upper-level undergraduate or postgraduate courses in cellular and molecular exercise physiology and muscle physiology. It is a valuable resource for any student with an advanced interest in exercise physiology in both sport performance and clinical settings.
Build the foundation of scientific knowledge and practical decision-making skills needed to excel in an exercise training career Master the core concepts of exercise physiology and learn how to apply them to the real-world challenges of exercise training with Exercise Physiology: Integrating Theory and Application, Third Edition. Designed to connect theory to practice, this engaging, accessible text gives students a thorough understanding of how the body adapts to exercise and environmental stresses and how basic physiology informs practical decisions. This new edition expands the coverage of practical applications, extends on our growing scientific knowledge of exercise physiology, explores the topic of “Exercise is Medicine”, and offers more guidance on finding reliable research-based answers to real-life questions. New content, as well as updated coverage of the endocrine system, applying research, nutritional support, and environmental effects make this the perfect resource to support the diverse case scenarios seen by personal trainers, strength coaches, fitness instructors, athletic trainers, and other exercise professionals.
Over the past decade, the complexity of athlete development has increased, and sport science has become enthralled with metrics and genetics. While an abundance of information has emerged, there is still a lack of practical guidance on how to integrate this information with training to help athletes achieve their potential. Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance brings much-needed clarity, providing a proven blueprint for bringing together the many fields related to sport science via an athlete development team that navigates the day-to-day development of each athlete. Developed by a team of renowned authors—including William Kraemer, one of the most prolifically published sport scientists in history—Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance is the first resource of its kind. It explains the integration of sport science through the development of an athlete development team, implementing a process of testing, evaluating, assessing, and monitoring athlete training and performance. You will learn how data generated by the athlete development team are translated into training programs that promote the physical and psychological development an athlete needs to compete and succeed at every level of competition. You will also find step-by-step explanations of how to create a testing “fingerprint” unique to each athlete, as well as case studies and success stories that demonstrate how the concepts in the book have been experienced in real life. Get a better understanding of how the use of sport science can improve the skills needed for long-term athlete development. Developing the Athlete: An Applied Sport Science Roadmap for Optimizing Performance will help all types of sport performance professionals prioritize and apply the three Cs—credentials, competence, and commitment—so you can tap into known scientific principles and practices to develop a path for success for all your athletes. Earn continuing education credits/units! A continuing education exam that uses this book is also available. It may be purchased separately or as part of a package that includes both the book and exam.
Volume 2 of the 5th Edition of the Handbook of Obesity spotlights on clinical applications for evaluation, diagnosis, prevention, and treatment of obesity. It covers on the several major developments occurred between the previous and the new edition, including the effect of SARS-CoV-2 on people with obesity, the concept of “Precision Medicine”, and new medications approved by USFDA aiding patients with obesity weight loss of 15 to 20%. This volume is structured into 5 parts: Part 1 provides insights from evolution on changes in diet and physical activity, and the implications and results for preventing obesity, health care costs associated with obesity and the cost-effectiveness of obesity prevention and treatment. Part 2 deals with evaluation of overweight patients, approaches for classifying obesity and using this knowledge to evaluate patients, and addressing ethnic and racial considerations in evaluating patients with obesity. Part 3 explains the impact of lifestyle in managing obesity, which include behavioural management, diet, dietary composition, and meal timing, and the effects of physical activity and exercise in weight loss and weight loss maintenance. Part 4 is focused on medications in the management of obesity. This includes drug selection, various classes of drugs, combination of drugs affecting weight loss, effect of herbal agents on weight loss and treatment of obesity in pediatric populations, genetic diseases causing obesity and the role of drugs in treating the dyslipidemias. Part 5 discusses bariatric surgery, its history, procedure and effects in details, and other surgical techniques including electric stimulation of the vagus nerve, gastric balloons, intestinal liners, and liposuction.
Very comprehensive and well-organized Handbook covering fundamental acute and chronic aspects of exercise and training, plus nutrition and ergogenic aids, and application to disease. Incorporates much of the new research that has been generated over the past decade, which has yet to be presented in a text book. The presented chapters comprehensively cover all aspects of exercise biochemistry Brings together an international and exceptional editorial team and contributing authors