Hematological, skeletal muscle fiber and exercise performance adaptations to heat training in elite female and male cyclists.

Abstract

Heat exercise training may increase exercise performance in athletes. The underlying mechanisms remain partly unresolved, and it is unknown if female and male athletes may experience comparable gains. The aims were to investigate whether heat training (HEAT) increases hemoglobin mass (Hbmass), skeletal muscle fiber characteristics and thermoneutral exercise performance in elite female and male endurance athletes. Female (n=20; VO2max = 58.2 ± 6.7 ml.min.kg) and male (n=27; VO2max = 76.4 ± 7.8 ml.min.kg) cyclists were studied before and after five weeks of randomized control or HEAT training consisting of five weekly sessions each of 50 min duration which were included in their normal training regimes. Overall, the observed relative responses to HEAT were largely similar in female and male study participants. HEAT increased (P<0.05) Hbmass in female from 650 ± 77 to 675 ± 76 g (4.0 ± 1.6%) and from 1008 ± 155 to 1041 ± 147 g (3.5 ± 2.3%) in male. In contrast, skeletal muscle citrate synthase activity, fiber type distribution and capillary density remained unchanged with HEAT. Lactate threshold, VO2max and mean power output during 15 min all out testing were all enhanced (P<0.05) following HEAT in female and male study participants. In conclusion, five weeks of HEAT increases Hbmass in female and male elite cyclists and improves exercise performance in a thermoneutral environment. Based on this, heat training may be recommended to elite female and male athletes aiming to perform in a thermoneutral environment.