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CHO (3.Four ± 0.1 vs. EE (thirteen ± 0.1 vs. 85% V̇O2max running velocity in contrast with the C group. Figure 5. Results of working economy in the heat. Average oxygen uptake (A), ratio of carbohydrates (B), and power expenditure (C) at 65%V̇O2max exercise intensity within the heat; average oxygen uptake (D), ratio of carbohydrates (E), and vitality expenditure (F) at 75%V̇O2max exercise depth in the heat; average oxygen uptake (G), ratio of carbohydrates (H), and vitality expenditure (I) in 85%V̇O2max train depth within the heat. This study evaluated the impact of 4-week energetic HA on aerobic capacity in the heat, with a focus on metabolic adaptation. The results showed that 4-week HA lowered the carbohydrate oxidation, indicating increased muscle glycogen utilization efficiency throughout submaximal exercise within the heat, thus supporting the thermoregulatory adaptation and enchancment of aerobic capability. The 4-week HA lowered the 0.4°C core temperature during exercise in the heat, representing profitable physiological adaptation. The decrease in core temperature during exercise induced by HA can reduce fatigue throughout train, as evidenced by the study exhibiting that 4 weeks of HA increased the testosterone levels of educated runners.
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發表於 2025-10-17 00:16:29