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Although there are chapters in exercise physiology texts and a few books on the topics of human bioenergetics and energy metabolism, those chapters and books often do not cover the pertinent information in sufficient detail and are generally highly research oriented or outdated. Bioenergetics Primer for Exercise Science is an up-to-date text that encompasses all available information regarding human bioenergetics and energy metabolism and brings together diverse issues that are of theoretical interest and practical importance.
Written as a primer, this text explains the foundational and critical knowledge and research findings in bioenergetics and the application of those findings. To evaluate research more knowledgeably and decide which techniques best fit their own research, students and professionals will learn about lab- and field-based techniques used to measure energy metabolism, including lipid metabolism.
In addition to bioenergetics concepts and research, the text emphasizes the metabolic challenges brought about by obesity and diabetes. A dedicated chapter discusses metabolic impairments associated with both diseases, alterations in metabolism during exercise for affected individuals, and the role of exercise in enhancing energy utilization and improving glucose response and insulin sensitivity. The text also provides a more specific discussion of bioenergetics applied to the subpopulations of children, elderly people, and women.
Without weighing down the reader will highly academic and technical jargon, the text explains the science behind energy metabolism in an accessible and inclusive format specifically designed for exercise science students studying areas other than bioenergetics and professionals working in related areas such as health and fitness, nutrition, and weight management. Bioenergetics novices will appreciate the cohesive presentation of information within a four-part structure:
Part I illustrates how carbohydrate, fat, and protein are metabolized and converted into energy for sport and physical activity. It conveys basic but critical information before pursuing more advanced topics in bioenergetics.
Part II presents lab- and field-based techniques for measuring energy metabolism, including a variety of instrumentations and protocols commonly used to assess energy and fuel utilization. Connections to sport and physical activity, including the energy cost of walking, running, cycling, and resistance exercise, are emphasized. Strategies that can be used to enhance energy utilization with special focus on weight management are also introduced.
Part III explores ideas and strategies for enhancing energy production and expenditure. Metabolic adaptations to exercise training are covered (such as changes in cellular function, fuel utilization, and oxygen uptake after aerobic, anaerobic, and resistance training). Special attention is given to obesity and diabetes, primarily the effect of glucose responses and insulin sensitivity on affected populations and how age, gender, and metabolic diseases affect those populations.
Part IV discusses additional aspects of bioenergetics, including factors influencing resting metabolic rate and the thermic effect of food and its relationship to physical activity and obesity. Also included is a discussion of intended use, working mechanism, related research, and potential side effects for select pharmacologic and nutritional substances.
Helpful textbook features such as chapter summaries, key point boxes, key terms bolded in the text and defined in the glossary, review questions with an appendix of answers, and an extensive reference list make this text ideal for effective learning and retention for students.
More in-depth than cursory discussions found in exercise physiology texts and more practical and accessible than dedicated bioenergetics texts, Bioenergetics Primer for Exercise Science encompasses all the up-to-date research and information regarding human bioenergetics and energy metabolism, offering both students and professionals a depth of knowledge that will inform their further study, research, and profession.
Bioenergetics Primer for Exercise Science is the third volume in Human Kinetics’ Primers in Exercise Science Series. This series presents a foundational understanding of the science behind each topic in the series and, when appropriate, its application. Written by leading researchers and teachers in their respective areas of expertise, these books convey the essential concepts in dynamic, complex areas of scientific knowledge using an accessible writing style. Designed for quick reference and ease of assimilation, these books provide students and professionals with up-to-date foundational knowledge in an otherwise unfamiliar scientific area.
Part I. Essentials of Bioenergetics
Chapter 1. Energy and Energy Metabolism
Energy Transformation in Sports and Physical Activity
Chapter 2. Metabolism of Macronutrients During Exercise
Protein and Amino Acids
Chapter 3. Regulation of Energy Metabolism
Overview of a Biological Control System
Neural and Hormonal Control Systems
Regulation of Substrate Metabolism During Exercise
Part II. Application of Bioenergetics in Physical Activity
Chapter 4. Measurement of Energy Metabolism
Chapter 5. Energy Cost of Physical Activities and Sports
Principles of Energy Utilization During Exercise
Energy Cost During Various Exercises
Chapter 6. Exercise Strategies for Enhancing Energy Utilization
Physical Activity and Energy Balance
Enhancing Energy Expenditure Through Exercise and Physical Activity
Exercise Intensity and Fat Utilization
Other Exercise Strategies
Limitations of Exercise Alone in Weight Management
Part III. Bioenergetics in Special Cases
Chapter 7. Metabolic Adaptations to Exercise Training
Cellular Adaptations to Aerobic Training
Changes in Fuel Utilization
Responses of Oxygen Uptake and Endurance Performance
Adaptations to Anaerobic and Resistance Training
Chapter 8. Influence of Gender and Age on Metabolism
Gender Differences in Substrate Metabolism
Exercise Metabolism in Elderly People
Energy Metabolism in Children and Adolescents
Chapter 9. Energy Metabolism in People With Obesity and Diabetes
General Description of the Diseases
Alterations in Metabolism During Exercise in Obesity and Diabetes
Role of Exercise in Improving Insulin Sensitivity
Part IV. Other Aspects of Bioenergetics
Chapter 10. Resting Metabolic Rate
General Description of Resting Metabolic Rate
Measurement of Resting Metabolic Rate
Factors Influencing Resting Metabolic Rate
Influence of Exercise on Resting Metabolic Rate
Role of Resting Metabolic Rate in the Pathogenesis of Obesity
Chapter 11. Thermal Effect of Food
Thermal Effect of Food and Its Measurement
Influence of Protein, Carbohydrate, and Fat Consumption
Other Factors Influencing Thermal Effect of Food
Interaction Between Physical Activity and Thermal Effect of Food
Thermal Effect of Food and Obesity
An undergraduate text to supplement courses in exercise physiology, sport nutrition, and kinesiology; also a reference for exercise scientists, exercise physiologists, and health and fitness, nutrition, and weight-management professionals dealing with the treatment and prevention of obesity and its associated complications.
Jie Kang, PhD, is a professor in the department of health and exercise science at the College of New Jersey in Ewing, where he directs graduate and undergraduate student research and teaches a variety of exercise science courses. Kang's interest in exercise metabolism originated with his doctoral work at the University of Pittsburgh, where he conducted clinical research dealing with exercise and diabetes. He received his PhD in exercise physiology in 1994.
Kang has published over 50 peer-reviewed articles and has been an invited speaker in various workshops and symposiums discussing topics related to bioenergetics and exercise metabolism, specifically the alterations in energy metabolism, substrate utilization, cardiorespiratory activity, and perceived exertion in response to acute and chronic exercise.
For the past several years, Kang has served as director of the ACSM Health/Fitness Instructor workshop and certification at the College of New Jersey. He is also an ACSM-certified exercise specialist. His work as both a clinician in several clinical, health, and fitness facilities and as a researcher provide opportunities for Kang to transfer bioenergetics theory to practical application.
Kang is also a member and fellow of the American College of Sports Medicine (ACSM) and a past member of the executive committee for the Mid-Atlantic Regional Chapter of the ACSM.
During his free time, Kang enjoys reading, photography, and traveling in addition to physical pursuits of jogging, swimming, and tennis. He and his wife, Julie Ye, live in Medford, New Jersey.