Increasing humidity affects thermoregulation during low-intensity exercise in women.

Aviation, space, and environmental medicine Pub Date : 2014-09-01 DOI:10.3357/ASEM.3993.2014

Nicole E Moyen, Toby Mündel, Andrea M Du Bois, Anthony B Ciccone, R Hugh Morton, Daniel A Judelson

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引用次数: 14

Abstract

Introduction: Women increasingly occupy manual labor jobs. However, research examining women working under hot-humid conditions is lacking. Therefore, the purpose of our study was to assess how increasing relative humidity (RH) affects women's thermoregulation during low-intensity exercise characteristic of 8 h self-paced manual labor.

Methods: There were 10 women (age: 23 ± 2 yr; body-surface area: 1.68 ± 0.13 m²; Vo2max: 46 ± 6 ml · kg⁻¹ · min⁻¹) who walked 90 min at 35% Vo2max in 35°C at 55% RH (55RH), 70% RH (70RH), and 85% RH (85RH). Investigators obtained: 1) rectal temperature (Tre), mean-weighted skin temperature (Tsk), and heart rate every 5 min; and 2) respiratory measures every 30 min.

Results: Heat production (H) and required rate of evaporative cooling (Ereq) remained constant among trials; each RH increment significantly decreased evaporative heat loss (E), but increased heart rate and sweat rate. All other calorimetric and thermometric variables were similar between 55RH and 70RH, but significantly greater in 85RH. Tre only exceeded 38°C in 85RH after walking ∼80 min. Combined, dry and respiratory heat losses only compensated for <30% of the decreases in E.

Conclusion: Women exercising at low intensities in 35°C experienced most statistically significant physiological changes after 70RH. As H and Ereq remained constant across trials, heat storage increased with each 15% rise in RH because dry and respiratory heat losses minimally offset decreased E. Higher Tre, Tsk, and resultantly higher sweat rates reflected heat storage increases as E decreased in each trial. Overall, at 35°C Ta, we found women exercising for 90 min at low intensities remained at safe rectal temperatures up to 70% RH.

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湿度增加会影响女性在低强度运动时的体温调节。

引言:越来越多的女性从事体力劳动。然而，关于在湿热环境下工作的女性的研究却很缺乏。因此，我们研究的目的是评估相对湿度(RH)的增加如何影响女性在8小时自主体力劳动的低强度运动特征中的体温调节。方法:10例女性(年龄:23±2岁;体表面积:1.68±0.13 m²;最大耗氧量:46±6 ml·kg(毒血症)，在35°C、55% RH (55RH)、70% RH (70RH)和85% RH (85RH)条件下，以35%最大耗氧量步行90分钟。研究者获得:1)直肠温度(Tre)、平均加权皮肤温度(Tsk)和每5分钟的心率;结果:各试验的产热(H)和蒸发冷却所需速率(Ereq)保持不变;每个相对湿度的增加显著降低了蒸发热损失(E)，但增加了心率和出汗率。所有其他量热和测温变量在55RH和70RH之间相似，但在85RH时显著增加。步行~ 80分钟后，在85RH条件下仅超过38°C。干热和呼吸热损失的综合补偿结论:在35°C条件下低强度运动的女性在70RH条件下的生理变化在统计学上最为显著。由于在试验中H和Ereq保持不变，热储存随着RH每增加15%而增加，因为干燥和呼吸热损失最小程度地抵消了E的减少。在每个试验中，更高的Tre、Tsk和更高的出汗率反映了热储存随着E的降低而增加。总的来说，在35°C Ta下，我们发现在低强度运动90分钟的女性保持在高达70% RH的安全直肠温度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aviation, space, and environmental medicine 医学-公共卫生、环境卫生与职业卫生

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1 months