在极端温暖的水温下,潜水员在完全浸入式的运动中有加速疲劳和核心温度上升的风险

David P. Looney, E. T. Long, Adam W. Potter, Xiaojiang Xu, K. Friedl, R. Hoyt, Christopher R. Chalmers, M. Buller, J. Florian
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引用次数: 9

摘要

在冷水中工作的生理反应已经得到了很好的研究,但对在温水中运动的影响知之甚少;对于某些军事、科学、娱乐和专业潜水行动来说,这是一个被忽视但至关重要的问题。这项研究考察了在极度温暖的海水中进行疲劳、完全浸入式运动时的核心温度反应。21名美国海军男性潜水员(体重为87.3±12.3 kg)在休息和疲劳运动期间进行监测,同时完全浸入四种不同的水温(Tw): 34.4, 35.8, 37.2和38.6°C (Tw34.4, Tw35.8, Tw37.2和Tw38.6)。参与者在水下循环测力仪上进行锻炼,直到达到意志疲劳或核心温度极限。连续监测核心体温和心率。试验时间随水温升高而显著缩短(Tw34.4, 174±12 min;Tw35.8, 115±13 min;Tw37.2, 50±13 min;Tw38.6, 34±14 min)。工作时的峰值核心体温在Tw34.4水(38.31±0.49°C)显著低于较温暖温度(Tw35.8, 38.60±0.55°C;Tw37.2, 38.82±0.76℃;Tw38.6, 38.97±0.65°C)。随着水温升高,核心体温变化率显著增加(Tw34.4, 0.39±0.28°C·h−1;Tw35.8, 0.80±0.19°C·h−1;Tw37.2, 2.02±0.31°C·h−1;Tw38.6, 3.54±0.41°C·h−1)。身体活跃的潜水员在温暖的海水中有严重的体温过高的危险。在温水中工作时,水温的升高会大大增加核心体温的上升速度。为了保证温水潜水的安全,需要新的基于工作量和温水暴露时间的堆芯温度预测模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Divers risk accelerated fatigue and core temperature rise during fully-immersed exercise in warmer water temperature extremes
ABSTRACT Physiological responses to work in cold water have been well studied but little is known about the effects of exercise in warm water; an overlooked but critical issue for certain military, scientific, recreational, and professional diving operations. This investigation examined core temperature responses to fatiguing, fully-immersed exercise in extremely warm waters. Twenty-one male U.S. Navy divers (body mass, 87.3 ± 12.3 kg) were monitored during rest and fatiguing exercise while fully-immersed in four different water temperatures (Tw): 34.4, 35.8, 37.2, and 38.6°C (Tw34.4, Tw35.8, Tw37.2, and Tw38.6 respectively). Participants exercised on an underwater cycle ergometer until volitional fatigue or core temperature limits were reached. Core body temperature and heart rate were monitored continuously. Trial performance time decreased significantly as water temperature increased (Tw34.4, 174 ± 12 min; Tw35.8, 115 ± 13 min; Tw37.2, 50 ± 13 min; Tw38.6, 34 ± 14 min). Peak core body temperature during work was significantly lower in Tw34.4 water (38.31 ± 0.49°C) than in warmer temperatures (Tw35.8, 38.60 ± 0.55°C; Tw37.2, 38.82 ± 0.76°C; Tw38.6, 38.97 ± 0.65°C). Core body temperature rate of change increased significantly with warmer water temperature (Tw34.4, 0.39 ± 0.28°C·h−1; Tw35.8, 0.80 ± 0.19°C·h−1; Tw37.2, 2.02 ± 0.31°C·h−1; Tw38.6, 3.54 ± 0.41°C·h−1). Physically active divers risk severe hyperthermia in warmer waters. Increases in water temperature drastically increase the rate of core body temperature rise during work in warm water. New predictive models for core temperature based on workload and duration of warm water exposure are needed to ensure warm water diving safety.
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