In 11-13-year-olds, fat-free mass accounts for sex differences in maximal stroke volume, but a small sex difference in peak oxygen uptake remains unexplained by fat-free mass and maximal stroke volume.
Abstract Purpose To investigate (1) whether maximal stroke volume (SV max) occurs at submaximal exercise intensities, (2) sex differences in SV max once fat-free mass (FFM) has been controlled for, and, (3) the contribution of concurrent changes in FFM and SV max to the sex-specific development of peak oxygen uptake ({V̇O₂ }) V˙O2. Methods The peak V̇O₂ V˙O2 s of 61 (34 boys) 11–12-year-olds were determined and their SV determined during treadmill running at 2. 28 and 2. 50 m s −1 using carbon dioxide rebreathing. The SV max and peak V̇O₂ V˙O2 of 51 (32 boys) students who volunteered to be tested treadmill running at 2. 50 m s −1 on three annual occasions were investigated using multilevel allometric modelling. The models were founded on 111 (71 from boys) determinations of SV max, FFM, and peak V̇O₂ V˙O2. Results Progressive increases in treadmill running speed resulted in significant (p V˙O2, but SV levelled-off with nonsignificant (p > 0. 05) changes within ~ 2–3%. In the multilevel models, SVmax increased proportionally to FFM 0. 72 and with FFM controlled for, there were no significant (p > 0. 05) sex differences. Peak V̇O₂ V˙O2 increased with FFM but after adjusting for FFM 0. 98, a significant (p V˙O2 remained. Introducing SV max to the multilevel model revealed a significant (p V˙O2. Conclusions Fat-free mass explained sex differences in SV max, but with FFM controlled for, there was still a ~ 5% sex difference in peak V̇O₂ V˙O2. SV max made a modest additional contribution to explain the development of peak V̇O₂, V˙O2, but there remained an unresolved sex difference of ~ 4%.
Armstrong et al. (Thu,) studied this question.
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