人体高强度运动时氧气摄取与功率输出之间的非线性关系。
Non-linear relationship between O2 uptake and power output at high intensities of exercise in humans.
作者信息
Zoladz J A, Rademaker A C, Sargeant A J
机构信息
Department of Muscle and Exercise Physiology, Vrije University, Amsterdam, The Netherlands.
出版信息
J Physiol. 1995 Oct 1;488 ( Pt 1)(Pt 1):211-7. doi: 10.1113/jphysiol.1995.sp020959.
Abstract
- A slow component to pulmonary oxygen uptake (VO2) is reported during prolonged high power exercise performed at constant power output at, or above, approximately 60% of the maximal oxygen uptake. The magnitude of the slow component is reported to be associated with the intensity of exercise and to be largely accounted for by an increased VO2 across the exercising legs. 2. On the assumption that the control mechanism responsible for the increased VO2 is intensity dependent we hypothesized that it should also be apparent in multi-stage incremental exercise tests with the result that the VO2-power output relationship would be curvilinear. 3. We further hypothesized that the change in the VO2-power output relationship could be related to the hierarchical recruitment of different muscle fibre types with a lower mechanical efficiency. 4. Six subjects each performed five incremental exercise tests, at pedalling rates of 40, 60, 80, 100 and 120 rev min-1, over which range we expected to vary the proportional contribution of different fibre types to the power output. Pulmonary VO2 was determined continuously and arterialized capillary blood was sampled and analysed for blood lactate concentration ([lactate]b). 5. Below the level at which a sustained increase in [lactate]b was observed pulmonary VO2 showed a linear relationship with power output; at high power outputs, however, there was an additional increase in VO2 above that expected from the extrapolation of that linear relationship, leading to a positive curvilinear VO2-power output relationship. 6. No systematic effect on the magnitude or onset of the 'extra' VO2 was found in relation to pedalling rate, which suggests that it is not related to the pattern of motor unit recruitment in any simple way.
摘要
- 据报道,在以约最大摄氧量的60%或更高的恒定功率输出进行长时间高强度运动期间,肺摄氧量(VO2)存在一个缓慢成分。据报道,该缓慢成分的大小与运动强度相关,并且在很大程度上是由于运动腿部的VO2增加所致。2. 假设负责VO2增加的控制机制与强度相关,我们推测在多级递增运动测试中也应明显,结果VO2-功率输出关系将呈曲线形。3. 我们进一步推测,VO2-功率输出关系的变化可能与不同机械效率较低的肌纤维类型的分级募集有关。4. 六名受试者分别以每分钟40、60、80、100和120转的蹬踏速率进行了五次递增运动测试,在此范围内我们预计不同纤维类型对功率输出的比例贡献会有所变化。连续测定肺VO2,并采集动脉化毛细血管血样,分析血乳酸浓度([乳酸]b)。5. 在观察到[乳酸]b持续增加的水平以下,肺VO2与功率输出呈线性关系;然而,在高功率输出时,VO2比该线性关系外推预期值有额外增加,导致VO2-功率输出呈正曲线关系。6. 未发现蹬踏速率对“额外”VO2的大小或起始有系统性影响,这表明它与运动单位募集模式没有任何简单的关联。
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