[Endurance bicycle ergometry at 0 degrees C: cardio-respiratory and metabolic course].

Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport Pub Date : 1986-06-01

P Vogelaere, A Quirion, R Leclerq, M Brasseur, S Bekaert

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Abstract

The purpose of the present study is to determine the physiological and metabolic variations during and after an exhaustive exercise in different thermal conditions (0 degree C and 20 degrees C). For the eleven experimental subjects, the maximal power output is the same at 0 degrees C and 20 degrees C: 330 +/- 30 W (Mean +/- s). The heart rate is lower (bradycardia) at rest, exhaustion, and recovery. However, these differences are only significant (p less than 0.05) at exhaustion. The oxygen consumption and pulmonary ventilation is higher at 0 degree C in comparison with the measurements at 20 degrees C. The blood lactate concentrations are significantly lower at 0 degree C and we observe the inverse phenomenon for the bicarbonates. The bases excess was significant at 4, 6 and 10th minute of recovery time. These values are higher for the measurements taken at 0 degree C. The results have shown that the cold stress after an exhaustive exercise and during recovery, can induce a physiological and metabolic response unlike of those at 20 degrees C.

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[0℃下耐力自行车几何:心肺代谢过程]。

本研究的目的是确定在不同热条件下(0℃和20℃)进行穷尽运动期间和之后的生理和代谢变化。对于11名实验对象，在0℃和20℃时的最大功率输出相同:330 +/- 30 W(平均+/- s)。在休息，疲惫和恢复时心率较低(心动心动缓)。然而，这些差异仅在耗尽时显著(p < 0.05)。与20℃时的测量值相比，0℃时的耗氧量和肺通气量更高。血乳酸浓度在0℃时明显降低，我们观察到碳酸氢盐的相反现象。在恢复时间4、6和10分钟，碱基过剩显著。结果表明，在剧烈运动后和恢复过程中，冷应激引起的生理和代谢反应与在20℃时不同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport

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