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Full-Text Articles in Medicine and Health Sciences
Body Composition In Elite Strongman Competitors, William J. Kraemer, Lydia K. Caldwell, Emily M. Post, William H. Dupont, Emily R. Martini, Nicholas A. Ratamess, Tunde K. Szivak, Jason P. Shurley, Matthew K. Beeler, Jeff S. Volek, Carl M. Maresh, Janice S. Todd, Bryant J. Walrod, Parker N. Hyde, Ciaran Fairman, Thomas M. Best
Body Composition In Elite Strongman Competitors, William J. Kraemer, Lydia K. Caldwell, Emily M. Post, William H. Dupont, Emily R. Martini, Nicholas A. Ratamess, Tunde K. Szivak, Jason P. Shurley, Matthew K. Beeler, Jeff S. Volek, Carl M. Maresh, Janice S. Todd, Bryant J. Walrod, Parker N. Hyde, Ciaran Fairman, Thomas M. Best
Health and Sport Sciences Faculty Scholarship
Kraemer, WJ, Caldwell, LK, Post, EM, DuPont, WH, Martini, ER, Ratamess, NA, Szivak, TK, Shurley, JP, Beeler, MK, Volek, JS, Maresh, CM, Todd, JS, Walrod, BJ, Hyde, PN, Fairman, C, and Best, TM. Body composition in elite strongman competitors. J Strength Cond Res 34(12): 3326–3330, 2020—The purpose of this descriptive investigation was to characterize a group of elite strongman competitors to document the body composition of this unique population of strength athletes. Data were collected from eligible competitors as part of a health screening program conducted over 5 consecutive years. Imaging was acquired using dual-energy x-ray absorptiometry (DXA), providing total …
Recovery Using “Float” From High Intensity Stress On Growth Hormone-Like Molecules In Resistance Trained Men, William J. Kraemer, Lydia K. Caldwell, Emily M. Post, Matthew K. Beeler, Ryan M. Dickerson, Mary J. Kennett, Carl M. Maresh, Wesley C. Hymer
Recovery Using “Float” From High Intensity Stress On Growth Hormone-Like Molecules In Resistance Trained Men, William J. Kraemer, Lydia K. Caldwell, Emily M. Post, Matthew K. Beeler, Ryan M. Dickerson, Mary J. Kennett, Carl M. Maresh, Wesley C. Hymer
Health and Sport Sciences Faculty Scholarship
Objective
The purpose of this study was to examine the influence of a novel “floatation-restricted environmental stimulation therapy” (floatation-REST) on growth hormone responses to an intense resistance exercise stress.
Design
Nine resistance trained men (age: 23.4 ± 2.5 yrs.; height: 175.3 ± 5.4 cm; body mass: 85.3 ± 7.9 kg) completed a balanced, crossover-controlled study design with two identical exercise trials, differing only in post-exercise recovery intervention (i.e., control or floatation-REST). A two-week washout period was used between experimental conditions. Plasma lactate was measured pre-exercise, immediately post-exercise and after the 1 h. recovery interventions. Plasma iGH was measured pre-exercise, immediately-post …