在炎热干燥环境中,人体循环和体温调节对热适应及运动的适应性变化。
Human circulatory and thermoregulatory adaptations with heat acclimation and exercise in a hot, dry environment.
作者信息
Nielsen B, Hales J R, Strange S, Christensen N J, Warberg J, Saltin B
机构信息
August Krogh Institute, University of Copenhagen, Denmark.
出版信息
J Physiol. 1993 Jan;460:467-85. doi: 10.1113/jphysiol.1993.sp019482.
Abstract
- Heat acclimation was induced in eight subjects by asking them to exercise until exhaustion at 60% of maximum oxygen consumption rate (VO2) for 9-12 consecutive days at an ambient temperature of 40 degrees C, with 10% relative humidity (RH). Five control subjects exercised similarly in a cool environment, 20 degrees C, for 90 min for 9-12 days; of these, three were exposed to exercise at 40 degrees C on the first and last day. 2. Acclimation had occurred as seen by the increased average endurance from 48 min to 80 min, the lower rate of rise in the heart rate (HR) and core temperature and the increased sweating. 3. Cardiac output increased significantly from the first to the final heat exposure from 19.6 to 21.4 l min-1; this was possibly due to an increased plasma volume and stroke volume. 4. The mechanism for the increased plasma volume may be an isosmotic volume expansion caused by influx of protein to the vascular compartment, and a sodium retention induced by a significant increase in aldosterone. 5. The exhaustion coincided with, or was elicited when, core temperature reached 39.7 +/- 0.15 degrees C; with progressing acclimation processes it took progressively longer to reach this level. However, at this point we found no reduction in cardiac output, muscle (leg) blood flow, no changes in substrate utilization or availability, and no recognized accumulated 'fatigue' substances. 6. It is concluded that the high core temperature per se, and not circulatory failure, is the critical factor for the exhaustion during exercise in heat stress.
摘要
- 对8名受试者进行热适应诱导,让他们在环境温度40摄氏度、相对湿度10%(RH)的条件下,以最大耗氧率(VO2)的60%持续运动至 exhaustion,持续9至12天。5名对照受试者在凉爽环境(20摄氏度)中进行类似运动,每次90分钟,持续9至12天;其中3名在第一天和最后一天暴露于40摄氏度的运动环境中。2. 热适应已经发生,表现为平均耐力从48分钟增加到80分钟,心率(HR)和核心温度的上升速率降低,出汗增加。3. 从首次热暴露到最后一次热暴露,心输出量从19.6显著增加到21.4升/分钟;这可能是由于血浆量和每搏输出量增加所致。4. 血浆量增加的机制可能是蛋白质流入血管腔导致的等渗性容量扩张,以及醛固酮显著增加引起的钠潴留。5. exhaustion发生在核心温度达到39.7±0.15摄氏度时,或由其引发;随着热适应过程的进展,达到该水平所需的时间越来越长。然而,此时我们发现心输出量、肌肉(腿部)血流量没有减少,底物利用或可用性没有变化,也没有公认的累积“疲劳”物质。6. 得出的结论是,在热应激运动中,关键因素是高核心温度本身,而非循环衰竭导致exhaustion。
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