PURPOSE: To characterize relationships between propulsion, anthropometry, and performance in Paralympic swimming. METHODS: A cross-sectional study of swimmers (13 male, 15 female) age 20.5 ± 4.4 y was conducted. Subject locomotor categorizations were no physical disability (n = 8, classes S13-S14) and low-severity (n = 11, classes S9-S10) or midseverity disability (n = 9, classes S6-S8). Full anthropometric profiles estimated muscle mass and body fat, a bilateral swim-bench ergometer quantified upper-body power production, and 100-m time trials quantified swimming performance. RESULTS: Correlations between ergometer mean power and swimming performance increased with degree of physical disability (low-severity male r = .65, ± 0.56, and female r = .68, ± 0.64; midseverity, r = .87, ± 0.41, and r = .79, ± 0.75). The female midseverity group showed nearperfect (positive) relationships for taller swimmers' (with a greater muscle mass and longer arm span) swimming faster, while for female no- and low-severity-disability groups, greater muscle mass was associated with slower velocity (r = .78, ± 0.43, and r = .65, ± 0.66). This was supported with lighter females (with less frontal surface area) in the low-severity group being faster (r = .94, ± 0.24). In a gender contrast, low-severity males with less muscle mass (r = -.64, ± 0.56), high skinfolds (r = .78, ± 0.43), a longer arm span (r = .58, ± 0.60) or smaller frontal surface area (r = -.93, ± 0.19) were detrimental to swimming-velocity production. CONCLUSION: Low-severity male and midseverity female Paralympic swimmers should be encouraged to develop muscle mass and upper-body power to enhance swimming performance. The generalized anthropometric measures appear to be a secondary consideration for coaches.
PURPOSE: To characterize relationships between propulsion, anthropometry, and performance in Paralympic swimming. METHODS: A cross-sectional study of swimmers (13 male, 15 female) age 20.5 ± 4.4 y was conducted. Subject locomotor categorizations were no physical disability (n = 8, classes S13-S14) and low-severity (n = 11, classes S9-S10) or midseverity disability (n = 9, classes S6-S8). Full anthropometric profiles estimated muscle mass and body fat, a bilateral swim-bench ergometer quantified upper-body power production, and 100-m time trials quantified swimming performance. RESULTS: Correlations between ergometer mean power and swimming performance increased with degree of physical disability (low-severity male r = .65, ± 0.56, and female r = .68, ± 0.64; midseverity, r = .87, ± 0.41, and r = .79, ± 0.75). The female midseverity group showed nearperfect (positive) relationships for taller swimmers' (with a greater muscle mass and longer arm span) swimming faster, while for female no- and low-severity-disability groups, greater muscle mass was associated with slower velocity (r = .78, ± 0.43, and r = .65, ± 0.66). This was supported with lighter females (with less frontal surface area) in the low-severity group being faster (r = .94, ± 0.24). In a gender contrast, low-severity males with less muscle mass (r = -.64, ± 0.56), high skinfolds (r = .78, ± 0.43), a longer arm span (r = .58, ± 0.60) or smaller frontal surface area (r = -.93, ± 0.19) were detrimental to swimming-velocity production. CONCLUSION: Low-severity male and midseverity female Paralympic swimmers should be encouraged to develop muscle mass and upper-body power to enhance swimming performance. The generalized anthropometric measures appear to be a secondary consideration for coaches.
Authors: Arthur T H Cheung; Ada W W Ma; Shirley S M Fong; Louisa M Y Chung; Young-Hyeon Bae; Karen P Y Liu; Kevin W K Kam; Joanne W Y Chung Journal: Medicine (Baltimore) Date: 2018-11 Impact factor: 1.889
Authors: Julien Schipman; Guillaume Saulière; Bryan Le Toquin; Andy Marc; Nicolas Forstmann; Jean-François Toussaint; Adrien Sedeaud Journal: Front Sports Act Living Date: 2021-01-28
Authors: José M Sarabia; Carmen Doménech; Enrique Roche; Néstor Vicente-Salar; Raul Reina Journal: Int J Environ Res Public Health Date: 2020-12-04 Impact factor: 3.390