对冷热环境温度阶跃变化的生理和知觉反应。

IF 1.6 4区 医学 Q3 ERGONOMICS International Journal of Occupational Safety and Ergonomics Pub Date : 2024-06-01 Epub Date: 2024-03-20 DOI:10.1080/10803548.2024.2326351
Qianqian Huang, Jian Li, Jun Li
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引用次数: 0

摘要

研究目的本研究探讨了温度阶梯对热反应的影响,以了解受热工人在冬季面临的温度骤变。方法。进行了三个阶段的温度阶跃变化(S20:20-40-20 °C;S30:10-40-10 °C;S40:0-40-0 °C)。第一阶段耗时 30 分钟,第二阶段耗时 60 分钟,第三阶段耗时 40 分钟。11 名参与者在整个实验过程中保持静坐,并记录了生理反应、热感和自我报告的健康症状。实验结果在温度上升阶段,稳定的皮肤温度和出汗开始时间推迟,心率从 S20 到 S40 下降了 10 bpm。在温度下降到寒冷条件时,人从热舒适过渡到不舒适,最终出现寒冷疲劳。在降温过程中,血压升高,这与降温幅度有关。对幅度相同但方向相反的温度阶跃的热反应是不对称的,随着阶跃幅度的增加而减弱。温度阶跃后,热感觉的反应快于生理变化,而自我报告的健康症状则落后于生理反应。结论。这些发现有助于扩大基础数据,以了解温度阶跃幅度和方向的影响。
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Physiological and perceptual responses to temperature step changes between cold and hot environments.

Objectives. This study explores the effects of temperature steps on thermal responses to understand abrupt temperature shifts faced by heat-exposed workers during winter. Methods. Three temperature step changes with three phases (S20: 20-40-20 °C, S30: 10-40-10 °C, S40: 0-40-0 °C) were conducted. Phase 1 took 30 min, phase 2 took 60 min and phase 3 took 40 min. Eleven participants remained sedentary throughout the experiment, and physiological responses, thermal perception and self-reported health symptoms were recorded. Results. In temperature up steps, steady skin temperature and sweating onset were delayed, and heart rate dropped by 10 bpm from S20 to S40. In temperature down steps to cold conditions, individuals transitioned from thermal comfort to discomfort and eventually cold strain. Blood pressure increased in temperature down steps, correlating with temperature step magnitudes. Thermal responses to temperature steps of equal magnitude but opposite directions were asymmetries, which weakened as step magnitude increased. Thermal perceptions responded faster than physiological changes after temperature steps, while self-reported health symptoms lagged behind physiological responses. Conclusions. These findings contribute to expanding basic data to understand the effects of temperature step magnitude and direction.

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来源期刊
CiteScore
4.80
自引率
8.30%
发文量
152
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