Metabolic Optimization for Health, Performance, and Recovery
Edited by Chad M. Kerksick
CRC Press – 2011 – 373 pages
CRC Press – 2011 – 373 pages
Sports nutrition has evolved beyond what to eat and how much to eat to now include the question of when to eat. A hot topic in sports nutrition, nutrient timing is a dietary concept that takes into account time as a missing dimension in athletic performance and recovery. Not only is the consumption of nutrients in ideal amounts and proportions important, but the timing with which they are administered is also of prime importance—the right nutrients at the ideal time to affect performance and muscular growth. Nutrient Timing: Metabolic Optimization for Health, Performance, and Recovery presents the most authoritative text to date that scientifically examines the contemporary topic of nutrient timing.
Worldwide research continues to rapidly explore the metabolic impact of nutrient timing and how its proper application may help to improve performance. With contributions from scientists and practitioners in the field, this book gathers the latest evidence-based information on this cutting-edge area. The chapters cover macronutrients—carbohydrates, proteins, and lipids—and their role in sporting activity, as well as an examination of vitamins and minerals. The core of the book focuses on pre-exercise, mid-exercise, and post-exercise considerations for both resistance and aerobically mediated activity. Using the models presented, individuals may improve performance, promote optimal adaptations to training, maximize recovery, and facilitate healthy interactions with their environment.
The final chapters of the book describe future concepts in nutrient timing, including the impact of protein source in the context of timing, how nutrient timing can fit in with a comprehensive recovery program, and the application of the ideas discussed in unique populations such as the aged, the military, and populations interested in weight loss. This text provides solid data from the scientists themselves, giving researchers, teachers, coaches, and medical and health care professionals the necessary information they need to accurately and effectively determine how nutrients can impact certain outcomes and, most importantly, how to practically apply this knowledge.
The Basis of Nutrient Timing and Its Place in Sport and Metabolic Regulation, Louise M. Burke and Nikki A. Jeacocke
Carbohydrates: The Fuel Currency in Skeletal Muscle, Chris N. Poole and Chad M. Kerksick
Proteins and Amino Acids: The Repair Blocks and Their Place in Growth and Recovery, Nancy R. Rodriguez and William Lunn
Lipids: A Dense Fuel Supply and Important Cellular Component, Kristin Dugan and Lem Taylor
Vitamins/Minerals: Invaluable Cellular Components for Optimal Physiological Function, Michael D. Roberts and Chad M. Kerksick
Preexercise Nutrient Timing in Endurance Activity, Elizabeth M. Broad, Leonidas G. Karagounis, and John A. Hawley
Macronutrient Intake during Endurance Activity to Optimize Performance, Michael J. Saunders and Nicholas D. Luden
Postexercise Nutrient Timing in Endurance Activity, Kyle Sunderland and Chad M. Kerksick
Early Timing Considerations for Resistance Activity, Chad M. Kerksick
Postexercise Nutrient Timing with Resistive Activities, Oliver C. Witard and Kevin D. Tipton
Industry, Innovation, and Nutrient Timing in Sports Nutrition, Robert Wildman and Mark Haub
The Impact of Protein Source on Timing Considerations for Health and Performance, Tyler Churchward-Venne and Stu Phillips
Nutrient Timing Programs in Sport: A Case Study Approach, Bob Seebohar
Incorporating Nutrient Timing as Part of a Complete Recovery Program, Amanda Carlson-Phillips and Craig Friedman
Nutrient Timing Considerations for the Military, Aged, Metabolically Challenged Populations, and Children, Vincent J. Dalbo, Jeffrey R. Stout, and Chad M. Kerksick
The Impact of Nutrient Timing Considerations on Weight Loss and Body Composition, Colin Wilborn and Chad M. Kerksick
Chad M. Kerksick, PhD, FACSM, FISSN, ATC, CSCS*D, NSCA-CPT*D, is currently an assistant professor of exercise physiology in the Health and Exercise Science Department at the University of Oklahoma. He founded, developed, and directs the Applied Biochemistry and Molecular Physiology Laboratory and holds adjunct positions in the Endocrinology and Diabetes Section with the Department of Pediatrics and Department of Physiology at the University of Oklahoma Health Sciences Center.