在不可补偿热应激下运动期间摄入冰浆与生理应激
Ice Slurry Ingestion and Physiological Strain During Exercise in Non-Compensable Heat Stress.
作者信息
Ng Jason, Wingo Jonathan E, Bishop Phillip A, Casey Jason C, Aldrich Elizabeth K
出版信息
Aerosp Med Hum Perform. 2018 May 1;89(5):434-441. doi: 10.3357/AMHP.4975.2018.
INTRODUCTION
Precooling with ice slurry ingestion attenuates the increase in rectal temperature (Tre) during subsequent running and cycling. It remains unclear how this cooling method affects physiological strain during work while wearing protective garments. This study investigated the effect of ice slurry ingestion on physiological strain during work in hot conditions while wearing firefighter protective clothing.
METHODS
In three counterbalanced trials, eight men (mean ± SD; age = 21 ± 2 yr, height = 179.5 ± 3.5 cm, mass = 79.1 ± 4.1 kg, body fat = 11.4 ± 3.7%) wore firefighter protective clothing and walked (4 km · h-1, 12% incline, ∼7 METs) for 30 min in hot conditions (35°C, 40% RH). Every 2.5 min, subjects ingested 1.25 g · kg-1 (relative total: 15 g · kg-1, absolute total: 1186.7 ± 61.3 g) of a tepid (22.4 ± 1.7°C), cold (7.1 ± 1.5°C), or ice slurry (-1.3 ± 0.2°C) beverage.
RESULTS
Heart rates (HR) were lower with ice slurry ingestion compared to both fluid trials starting 5 min into exercise (tepid = 158 ± 14, cold = 157 ± 11, ice slurry = 146 ± 13 bpm) and persisting for the remainder of the bout (min 30: tepid = 196 ± 10, cold = 192 ± 10, ice slurry = 181 ± 13 bpm). Tre was lower with ice slurry ingestion compared to cold and tepid trials (min 5: tepid = 37.17 ± 0.38, cold = 37.17 ± 0.39, ice slurry = 37.05 ± 0.43°C; min 30: tepid = 38.15 ± 0.29, cold = 38.31 ± 0.36, ice slurry = 37.95 ± 0.32°C). The physiological strain index (PSI) was lower with ice slurry ingestion compared to fluid trials starting at min 5 (tepid = 3.8 ± 0.7, cold = 3.8 ± 0.6, ice slurry = 3.0 ± 0.5) and remained lower throughout exercise (min 30: tepid = 8.2 ± 0.6, cold = 8.3 ± 0.9, ice slurry = 6.9 ± 1.2).
DISCUSSION
A large quantity of ice slurry ingested under non-compensable heat stress conditions mitigated physiological strain during exercise by blunting the rise in heart rate and rectal temperature.Ng J, Wingo JE, Bishop PA, Casey JC, Aldrich EK. Ice slurry ingestion and physiological strain during exercise in non-compensable heat stress. Aerosp Med Hum Perform. 2018; 89(5):434-441.
引言
摄入冰浆进行预冷可减轻后续跑步和骑行过程中直肠温度(Tre)的升高。目前尚不清楚这种冷却方法在穿着防护服工作期间如何影响生理应激。本研究调查了在炎热条件下穿着消防员防护服工作时摄入冰浆对生理应激的影响。
方法
在三项平衡试验中,八名男性(平均值±标准差;年龄=21±2岁,身高=179.5±3.5厘米,体重=79.1±4.1千克,体脂=11.4±3.7%)穿着消防员防护服,在炎热条件下(35°C,40%相对湿度)以4公里·小时-1的速度、12%的坡度行走(约7梅脱)30分钟。每隔2.5分钟,受试者摄入1.25克·千克-1(相对总量:15克·千克-1,绝对总量:1186.7±61.3克)的温热(22.4±1.7°C)、冷(7.1±1.5°C)或冰浆(-1.3±0.2°C)饮料。
结果
与两种液体试验相比,摄入冰浆后心率(HR)在运动开始5分钟后较低(温热=158±14,冷=157±11,冰浆=146±13次/分钟),并在运动剩余时间内持续较低(第30分钟:温热=196±10,冷=192±10,冰浆=181±13次/分钟)。与冷和温热试验相比,摄入冰浆后Tre较低(第5分钟:温热=37.17±0.38,冷=37.17±0.39,冰浆=37.05±0.43°C;第30分钟:温热=38.15±0.29,冷=38.31±0.36,冰浆=37.95±0.32°C)。与液体试验相比,摄入冰浆后的生理应激指数(PSI)在第5分钟开始时较低(温热=3.8±0.7,冷=3.8±0.6,冰浆=3.0±0.5),并在整个运动过程中保持较低(第30分钟:温热=8.2±0.6,冷=8.3±0.9,冰浆=6.9±1.2)。
讨论
在不可补偿的热应激条件下摄入大量冰浆可通过抑制心率和直肠温度的升高来减轻运动期间的生理应激。
吴J、温戈JE、毕晓普PA、凯西JC、奥尔德里奇EK。不可补偿热应激下运动期间摄入冰浆与生理应激。航空航天医学与人类表现。2018;89(5):434 - 441。
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