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首页> 外文期刊>Applied Physiology, Nutrition, and Metabolism >Exercise-induced dehydration with and without environmental heat stress results in increased oxidative stress
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Exercise-induced dehydration with and without environmental heat stress results in increased oxidative stress

机译:运动诱发的脱水在有或没有环境热应激的情况下都会导致氧化应激增加

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While in vitro work has revealed that dehydration and hyperthermia can elicit increased cellular and oxidative stress, in vivo research linking dehydration, hyperthermia, and oxidative stress is limited. The purpose of this study was to investigate the effects of exercise-induced dehydration with and without hyperthermia on oxidative stress. Seven healthy male, trained cyclists (power output (W) at lactate threshold (LT): 199 ± 19 W) completed 90 min of cycling exercise at 95% LT followed by a 5-km time trial (TT) in 4 trials: (i) euhydration in a warm environment (EU-W, control), (ii) dehydration in a warm environment (DE-W), (iii) euhydration in a thermoneutral environment (EU-T), and (iv) dehydration in a thermoneutral environment (DE-T) (W: 33.9 ± 0.9 °C; T: 23.0 ± 1.0 °C). Oxidized glutathione (GSSG) increased significantly postexercise in dehydration trials only (DE-W: p < 0.01, DE-T: p = 0.03), and while not significant, total glutathione (TGSH) and thiobarbituric acid reactive substances (TBARS) tended to increase postexercise in dehydration trials (p = 0.08 for both). Monocyte heat shock protein 72 (HSP72) concentration was increased (p = 0.01) while lymphocyte HSP32 concentration was decreased for all trials (p = 0.02). Exercise-induced dehydration led to an increase in GSSG concentration while maintenance of euhydration attenuated these increases regardless of environmental condition. Additionally, we found evidence of increased cellular stress (measured via HSP) during all trials independent of hydration status and environment. Finally, both 90-min and 5-km TT performances were reduced during only the DE-W trial, likely a result of combined cellular stress, hyperthermia, and dehydration. These findings highlight the importance of fluid consumption during exercise to attenuate thermal and oxidative stress during prolonged exercise in the heat.
机译:尽管体外研究表明脱水和热疗会引起细胞和氧化应激的增加,但将脱水,热疗和氧化应激联系起来的体内研究仍然有限。这项研究的目的是研究运动引起的有无热疗脱水对氧化应激的影响。七名训练有素的健康男性骑自行车的人(乳酸阈值(LT)的输出功率(W):199±19 W)以95%LT完成了90分钟的自行车运动,随后进行了4个试验的5公里计时赛(TT): i)在温暖的环境中进行脱水(EU-W,对照),(ii)在温暖的环境中进行脱水(DE-W),(iii)在热中性环境(EU-T)中进行脱水,和(iv)在热中性环境(DE-T)(W:33.9±0.9°C; T:23.0±1.0°C)。仅在脱水试验中,运动后氧化型谷胱甘肽(GSSG)显着增加(DE-W:p <0.01,DE-T:p = 0.03),尽管不显着,总谷胱甘肽(TGSH)和硫代巴比妥酸反应性物质(TBARS)倾向于在脱水试验中增加运动后能力(两者均p = 0.08)。在所有试验中,单核细胞热休克蛋白72(HSP72)浓度增加(p = 0.01),而淋巴细胞HSP32浓度降低(p = 0.02)。运动引起的脱水导致GSSG浓度增加,而维持水合作用减弱了这些增加,而与环境条件无关。此外,我们发现在所有试验中细胞水压力增加(通过HSP测量)的证据,与水合状况和环境无关。最后,仅在DE-W试验期间,90分钟和5公里的TT性能都降低了,这可能是细胞压力,体温过高和脱水共同作用的结果。这些发现凸显了运动期间消耗液体对减轻长时间热运动中的热和氧化应激的重要性。

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