钠负荷有助于维持液体平衡，并减轻训练有素的男性在炎热环境中运动时的生理压力。

Sodium loading aids fluid balance and reduces physiological strain of trained men exercising in the heat.

作者信息

Sims Stacy T, van Vliet Linda, Cotter James D, Rehrer Nancy J

机构信息

School of Physical Education, Department of Human Nutrition, University of Otago, Dunedin, New Zealand.

出版信息

Med Sci Sports Exerc. 2007 Jan;39(1):123-30. doi: 10.1249/01.mss.0000241639.97972.4a.

DOI:10.1249/01.mss.0000241639.97972.4a

PMID:17218894

Abstract

PURPOSE

This study was conducted to determine whether preexercise ingestion of a highly concentrated sodium beverage would increase plasma volume (PV) and reduce the physiological strain of moderately trained males running in the heat.

METHODS

Eight endurance-trained (.VO2max: 58 mL.kg(-1).min(-1) (SD 5); 36 yr (SD 11)) runners completed this double-blind, crossover experiment. Runners ingested a high-sodium (High Na+: 164 mmol Na+.L(-1)) or low-sodium (Low Na+: 10 mmol Na+.L(-1)) beverage (10 mL.kg(-1)) before running to exhaustion at 70% .VO2max in warm conditions (32 degrees C, 50% RH, V(a) approximately equal to 1.5 m.s(-1)). Beverages (approximately 757 mL) were ingested in seven portions across 60 min beginning 105 min before exercise. Trials were separated by 1-3 wk. Heart rate and core and skin temperatures were measured throughout exercise. Urine and venous blood were sampled before and after drinking and exercise.

RESULTS

High Na+ increased PV before exercise (4.5% (SD 3.7)), calculated from Hct and [Hb]), whereas Low Na+ did not (0.0% (SD 0.5); P = 0.04), and involved greater time to exercise termination in the six who stopped because of an ethical end point (core temperature 39.5 degrees C: 57.9 min (SD 6) vs 46.4 min (SD 4); P = 0.04) and those who were exhausted (96.1 min (SD 22) vs 75.3 min (SD 21); P = 0.03; High Na+ vs Low Na+, respectively). At equivalent times before exercise termination, High Na+ also resulted in lower core temperature (38.9 vs 39.3 degrees C; P = 0.00) and perceived exertion (P = 0.01) and a tendency for lower heart rate (164 vs 174 bpm; P = 0.08).

CONCLUSIONS

Preexercise ingestion of a high-sodium beverage increased plasma volume before exercise and involved less thermoregulatory and perceived strain during exercise and increased exercise capacity in warm conditions.

摘要

目的

本研究旨在确定运动前摄入高浓度钠饮料是否会增加血浆量（PV），并减轻中度训练的男性在炎热环境中跑步时的生理应激。

方法

八名耐力训练的（最大摄氧量：58 mL·kg⁻¹·min⁻¹（标准差5）；36岁（标准差11））跑步者完成了这项双盲、交叉实验。跑步者在温暖环境（32℃，50%相对湿度，风速约1.5 m·s⁻¹）中以70%最大摄氧量跑步至 exhaustion 前，摄入高钠（高Na⁺：164 mmol Na⁺·L⁻¹）或低钠（低Na⁺：10 mmol Na⁺·L⁻¹）饮料（10 mL·kg⁻¹）。饮料（约757 mL）在运动前105分钟开始的60分钟内分七次摄入。试验间隔1 - 3周。在整个运动过程中测量心率、核心温度和皮肤温度。在饮用饮料前后以及运动前后采集尿液和静脉血样。

结果

高Na⁺使运动前血浆量增加（4.5%（标准差3.7）），根据红细胞压积和血红蛋白计算得出，而低Na⁺则未增加（0.0%（标准差0.5）；P = 0.04），并且在因伦理终点（核心温度39.5℃）而停止的六名受试者中，高Na⁺组运动至终止的时间更长（57.9分钟（标准差6）对46.4分钟（标准差4）；P = 0.04），在精疲力竭的受试者中也是如此（96.1分钟（标准差22）对75.3分钟（标准差21）；P = 0.03；分别为高Na⁺组对低Na⁺组）。在运动终止前的相同时间，高Na⁺还导致较低的核心温度（38.9对39.3℃；P = 0.00）和主观用力程度（P = 0.01），并且有心率降低的趋势（164对174次/分钟；P = 0.08）。

结论

运动前摄入高钠饮料可增加运动前血浆量，并在运动过程中减少体温调节和主观应激，提高在温暖环境中的运动能力。

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钠负荷有助于维持液体平衡，并减轻训练有素的男性在炎热环境中运动时的生理压力。

Sodium loading aids fluid balance and reduces physiological strain of trained men exercising in the heat.

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机构信息

出版信息

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METHODS

RESULTS

CONCLUSIONS

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方法

结果

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