Thermoregulation during a six-hour exposure to warm, humid hyperbaric conditions.

IF 0.7 4区医学 Q4 MARINE & FRESHWATER BIOLOGY

Undersea and Hyperbaric Medicine Pub Date : 2022-04-01

Daniel K Sweet, Courtney E Wheelock, Jacqueline Schwob, Jocelyn Stooks, Brian M Clemency, Erika St James, Riana R Pryor, Zachary J Schlader, David Hostler

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Abstract

Purpose: In a disabled submarine scenario, a pressurized rescue module (PRM) may be deployed to rescue survivors. If the PRM were to become disabled, conditions could become hot and humid exposing the occupants to heat stress. We tested the hypothesis that the rise in core temperature and fluid loss from sweating would increase with rising dry bulb temperature.

Methods: Twelve males (age 22 ± 3 years; height 179 ± 7 cm; mass 77.4 ± 8.3 kg) completed this study. On three occasions, subjects were exposed to high humidity and either 28-, 32-, or 35˚C for six hours in a dry hyperbaric chamber pressurized to 6.1 msw. Changes in core temperature (Tc) and body mass were recorded and linear regression lines fit to estimate the predicted rise in Tc and loss of fluid from sweating.

Results: Heart rate was higher in the 35°C condition compared to the 28°C and 32°C conditions. Tc was higher in the 32°C condition compared to 28°C and higher in 35°C compared to the 28˚°C and 32°C conditions. Projected fluid loss in all of the tested conditions could exceed 6% of body mass after 24 hours of exposure endangering the health of sailors in a DISSUB or disabled PRM. A fluid intake of 1.0 to 3.5 L would be required to limit dehydration to 2% or 4% of initial mass depending upon condition.

Conclusions: Prolonged exposure to 35°C conditions under pressure results in uncompensable heat stress. 32°C and 35°C exposures were compensable under these conditions but further research is required to elucidate the effect of increased ambient pressure on thermoregulation.

本刊更多论文

在温暖潮湿的高压环境下进行6小时的体温调节。

目的:在潜艇失能的情况下，可以部署加压救援模块(PRM)来救援幸存者。如果PRM被禁用，条件可能会变得又热又湿，使居住者暴露在热应力下。我们测试了一个假设，即核心温度的升高和出汗造成的液体损失会随着干球温度的升高而增加。方法:男性12例，年龄22±3岁;高度179±7cm;体重77.4±8.3 kg)完成本研究。在三种情况下，受试者在高压干燥舱中暴露于28、32或35˚C的高湿度环境中6小时，压力为6.1 msw。记录核心温度(Tc)和体重的变化，并拟合线性回归线来估计预测的Tc升高和出汗引起的液体损失。结果:与28°C和32°C条件相比，35°C条件下的心率更高。32℃条件下的Tc高于28℃，35℃条件下的Tc高于28℃和32℃条件。在所有测试条件下，暴露24小时后预计的液体损失可能超过体重的6%，危及DISSUB或残疾PRM水手的健康。根据情况，需要1.0至3.5升的液体摄入量来限制脱水至初始质量的2%或4%。结论:在压力下长时间暴露在35°C的条件下会导致不可补偿的热应激。在这些条件下，32°C和35°C的暴露是可补偿的，但需要进一步的研究来阐明环境压力增加对体温调节的影响。

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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来源期刊

Undersea and Hyperbaric Medicine 医学-海洋与淡水生物学

CiteScore

1.60

自引率

11.10%

发文量

审稿时长

>12 weeks

期刊介绍： Undersea and Hyperbaric Medicine Journal accepts manuscripts for publication that are related to the areas of diving research and physiology, hyperbaric medicine and oxygen therapy, submarine medicine, naval medicine and clinical research related to the above topics. To be considered for UHM scientific papers must deal with significant and new research in an area related to biological, physical and clinical phenomena related to the above environments.

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