Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Rehabilitation and Therapy
Less Is More: The Physiological Basis For Tapering In Endurance, Strength, And Power Athletes, Kevin A. Murach, James R. Bagley
Less Is More: The Physiological Basis For Tapering In Endurance, Strength, And Power Athletes, Kevin A. Murach, James R. Bagley
Physical Therapy Faculty Publications
Taper, or reduced-volume training, improves competition performance across a broad spectrum of exercise modes and populations. This article aims to highlight the physiological mechanisms, namely in skeletal muscle, by which taper improves performance and provide a practical literature-based rationale for implementing taper in varied athletic disciplines. Special attention will be paid to strength- and power-oriented athletes as taper is under-studied and often overlooked in these populations. Tapering can best be summarized by the adage “less is more” because maintained intensity and reduced volume prior to competition yields significant performance benefits.
Immune Function And Muscle Adaptations To Resistance Exercise In Older Adults: Study Protocol For A Randomized Controlled Trial Of A Nutritional Supplement, Richard A. Dennis, Usha Ponnappan, Ralph L. Kodell, Kimberly K. Garner, Christopher M. Parkes, Melinda M. Bopp, Kalpana P. Padala, Charlotte A. Peterson, Prasad R. Padala, Dennis H. Sullivan
Immune Function And Muscle Adaptations To Resistance Exercise In Older Adults: Study Protocol For A Randomized Controlled Trial Of A Nutritional Supplement, Richard A. Dennis, Usha Ponnappan, Ralph L. Kodell, Kimberly K. Garner, Christopher M. Parkes, Melinda M. Bopp, Kalpana P. Padala, Charlotte A. Peterson, Prasad R. Padala, Dennis H. Sullivan
Physical Therapy Faculty Publications
BACKGROUND: Immune function may influence the ability of older adults to maintain or improve muscle mass, strength, and function during aging. Thus, nutritional supplementation that supports the immune system could complement resistance exercise as an intervention for age-associated muscle loss. The current study will determine the relationship between immune function and exercise training outcomes for older adults who consume a nutritional supplement or placebo during resistance training and post-training follow-up. The supplement was chosen due to evidence suggesting its ingredients [arginine (Arg), glutamine (Gln), and β-hydroxy β-methylbutyrate (HMB)] can improve immune function, promote muscle growth, and counteract muscle loss. …