有氧适能对运动-热应激中年龄与全身热交换关系的影响:回顾性分析。
Effect of aerobic fitness on the relation between age and whole-body heat exchange during exercise-heat stress: a retrospective analysis.
机构信息
Human and Environmental Physiology Research Unit, School of Human Kinetics, University of Ottawa, Ottawa, Canada.
出版信息
Exp Physiol. 2020 Sep;105(9):1550-1560. doi: 10.1113/EP088783. Epub 2020 Jul 15.
NEW FINDINGS
What is the central question of this study? Does higher aerobic fitness, indexed by peak oxygen uptake ( ), attenuate the age-related decline in thermoregulatory function during exercise in the heat? What is the main finding and its importance? When assessed in aerobically fit and less fit adults ( : ∼30 vs. ∼50 ml kg min ) aged 18-66 years, a steeper decline in whole-body total heat loss (evaporative + dry heat exchange) was observed with increasing age in less aerobically fit adults. These outcomes indicate that increased aerobic fitness may attenuate the age-related decline in thermoregulatory function during exercise-heat stress.
ABSTRACT
Ageing is associated with decrements in cutaneous vasodilatation and sweating that attenuate whole-body total heat loss (evaporative + dry heat exchange) during exercise-heat stress. However, it remains uncertain whether increased aerobic fitness, as indexed by peak oxygen uptake ( ), slows that age-related decline. To evaluate this possibility, we conducted a retrospective analysis of data from aerobically fit (n = 38; : (mean (SD)) 49 (4) ml kg min ) and less fit (n = 35; : 32 (3) ml kg min ) adults spanning a broad age range (18-65 vs. 18-66 years). Participants performed three, 30 min bouts of cycling at metabolic heat productions of 150, 200 and 250 W m , each separated by 15 min recovery, in dry heat (40˚C, ∼15% relative humidity). Metabolic heat production and whole-body total heat loss were measured using indirect and direct calorimetry, respectively. Total heat loss (mean (95% CI)) declined at a rate of 5 (2, 8), 6 (3, 8) and 5 (3, 10) W m per decade during exercise at metabolic heat productions of 150, 200 and 250 W m , respectively, in less aerobically fit individuals (all P ≤ 0.002), due primarily to reductions in evaporative heat loss. In contrast, no significant associations between age and total heat loss were observed in aerobically fit individuals (all P ≥ 0.146). As such, the slope of the age-related reduction in total heat loss was steeper in less fit compared to fit individuals across all three exercise bouts (all P ≤ 0.029). These outcomes indicate that increased aerobic fitness attenuates the age-related decline in exercise thermoregulation.
新发现
本研究的核心问题是什么?更高的有氧适能(以最大摄氧量( )表示)是否可以减弱运动热应激过程中随年龄增长而出现的体温调节功能下降?主要发现及其重要性是什么?在年龄为 18-66 岁、有氧适能不同的成年人( :约 30 与约 50ml·kg-1·min-1)中,评估其在整个身体总热损失(蒸发+干热交换)时,随着年龄的增长,低有氧适能成年人的下降幅度更大。这些结果表明,增加有氧适能可能会减弱运动热应激过程中随年龄增长而出现的体温调节功能下降。
摘要
衰老与皮肤血管舒张和出汗减少有关,这会降低运动热应激过程中的全身总热损失(蒸发+干热交换)。然而,目前尚不确定更高的有氧适能(以最大摄氧量( )表示)是否会减缓这种与年龄相关的下降。为了评估这种可能性,我们对有氧适能(n=38; :(均值(标准差))49(4)ml·kg-1·min)和低适能(n=35; :32(3)ml·kg-1·min)成年人进行了回顾性分析,这些成年人的年龄跨度很大(18-65 与 18-66 岁)。参与者在干热环境(40°C,相对湿度约为 15%)中进行了三次、30 分钟的自行车骑行,每次骑行的代谢产热量为 150、200 和 250W·m,每个骑行之间间隔 15 分钟恢复期。使用间接和直接测热法分别测量代谢产热和全身总热损失。在低适能个体中,运动时的总热损失(平均值(95%置信区间))以 5(2,8)、6(3,8)和 5(3,10)W·m·decade的速度下降,在代谢产热量为 150、200 和 250W·m·decade时,分别为 150、200 和 250W·m(所有 P 值均≤0.002),主要是由于蒸发散热的减少。相比之下,在有氧适能个体中,年龄与总热损失之间没有显著的相关性(所有 P 值均≥0.146)。因此,在所有三个运动阶段,与低适能个体相比,适能个体的总热损失随年龄下降的斜率更平缓(所有 P 值均≤0.029)。这些结果表明,增加有氧适能可减弱运动时的年龄相关体温调节下降。
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