环境温度对训练有素的自行车运动员高强度间歇运动的影响。

Effect of Environmental Temperature on High-Intensity Intervals in Well-Trained Cyclists.

作者信息

Boynton Jason R, Danner Fabian, Menaspà Paolo, Peiffer Jeremiah J, Abbiss Chris R

出版信息

Int J Sports Physiol Perform. 2019 Nov 1;14(10):1401-1407. doi: 10.1123/ijspp.2018-0689.

DOI:10.1123/ijspp.2018-0689

PMID:30958046

Abstract

PURPOSE

To examine the effect of environmental temperature (TA) on performance and physiological responses (eg, body temperature, cardiopulmonary measures) during a high-intensity aerobic interval session. It was hypothesized that power output would be highest in the 13°C condition and lower in the 5°C, 22°C, and 35°C conditions.

METHODS

Eleven well-trained cyclists randomly completed 4 interval sessions at 5°C, 13°C, 22°C, and 35°C (55% [13%] relative humidity), each involving five 4-min intervals interspersed with 5 min of recovery. During the intervals, power output, core temperature (TC), skin temperature, VO2, and heart rate were recorded.

RESULTS

Mean session power output for 13°C (366 [32] W) was not higher than 5°C (363 [32] W; P = 1.00, effect size = 0.085), 22°C (364 [36] W; P = 1.00, effect size = 0.061), or 35°C (352 [31] W; P = .129, effect size = 0.441). The 5th interval of the 35°C condition had a lower power output compared with all other TA. TC was higher in 22°C compared with both 5°C and 13°C (P = .001). VO2 was not significantly different across TA (P = .187). Heart rate was higher in the 4th and 5th intervals of 35°C compared with 5°C and 13°C.

CONCLUSIONS

This study demonstrates that while mean power outputs for intervals are similar across TA, hot TA (≥35°C) reduces interval power output later in a training session. Well-trained cyclists performing maximal high-intensity aerobic intervals can achieve near-optimal power output over a broader range of TA than previous literature would indicate.

摘要

目的

研究环境温度（TA）对高强度有氧间歇训练期间运动表现和生理反应（如体温、心肺指标）的影响。研究假设功率输出在13°C条件下最高，在5°C、22°C和35°C条件下较低。

方法

11名训练有素的自行车运动员在5°C、13°C、22°C和35°C（相对湿度55%[13%]）下随机完成4次间歇训练，每次训练包括5个4分钟的间歇，中间穿插5分钟的恢复时间。在间歇期间，记录功率输出、核心温度（TC）、皮肤温度、摄氧量（VO2）和心率。

结果

13°C时的平均训练功率输出（366[32]瓦）不高于5°C（363[32]瓦；P = 1.00，效应量 = 0.085）、22°C（364[36]瓦；P = 1.00，效应量 = 0.061）或35°C（352[31]瓦；P = 0.129，效应量 = 0.441）。与所有其他TA相比，35°C条件下的第5个间歇功率输出较低。22°C时的TC高于5°C和13°C时（P = 0.001）。不同TA下的VO2无显著差异（P = 0.187）。与5°C和13°C相比，35°C的第4和第5个间歇心率更高。

结论

本研究表明，虽然不同TA下间歇训练的平均功率输出相似，但高温TA（≥35°C）会在训练后期降低间歇功率输出。进行最大强度有氧间歇训练的训练有素的自行车运动员，在比以往文献所示更宽的TA范围内，能够实现接近最佳的功率输出。

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环境温度对训练有素的自行车运动员高强度间歇运动的影响。

Effect of Environmental Temperature on High-Intensity Intervals in Well-Trained Cyclists.

作者信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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