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递增负荷运动中V̇O₂的(非)线性增加与恒功率运动中V̇O₂慢成分的比较:潜在机制

V̇O (non-)linear increase in ramp-incremental exercise vs. V̇O slow component in constant-power exercise: Underlying mechanisms.

作者信息

Korzeniewski Bernard

机构信息

BioSimulation Center, Kraków, Poland.

出版信息

Respir Physiol Neurobiol. 2023 May;311:104023. doi: 10.1016/j.resp.2023.104023. Epub 2023 Jan 31.

Abstract

A computer model of the skeletal muscle bioenergetic system involving the P double-threshold mechanism of muscle fatigue was used to study the V̇O (non-)linear increase in time in ramp-incremental exercise as compared to the V̇O slow component in constant-power exercise. The P double-threshold mechanism applies to both constant-power and ramp-incremental exercise. The additional ATP usage is initiated at a significantly higher ATP usage activity (power output), determining the moderate/heavy exercise border, in ramp-incremental, than in constant-power exercise. A significantly lowered additional ATP usage activity or elevated glycolysis stimulation at the highest power outputs in ramp-incremental exercise in relation to constant-power exercise can additionally explain the much smaller (or zero) V̇O non-linearity in ramp-incremental exercise, than V̇O slow component in constant-power exercise. The V̇O (non-)linearity in ramp-incremental exercise and V̇O slow component in constant-power exercise is a derivative of a balance between the additional ATP usage and ATP production by anaerobic glycolysis.

摘要

一个涉及肌肉疲劳P双阈值机制的骨骼肌生物能量系统计算机模型,用于研究递增负荷运动中摄氧量(V̇O)随时间的非线性增加,与恒功率运动中的V̇O慢成分进行比较。P双阈值机制适用于恒功率运动和递增负荷运动。在递增负荷运动中,额外的ATP使用在显著更高的ATP使用活动(功率输出)时启动,该活动决定了中等/重度运动边界,这一活动在递增负荷运动中比在恒功率运动中更高。与恒功率运动相比,在递增负荷运动的最高功率输出时,显著降低的额外ATP使用活动或升高的糖酵解刺激,还可以解释递增负荷运动中V̇O的非线性比恒功率运动中的V̇O慢成分小得多(或为零)的原因。递增负荷运动中的V̇O非线性和恒功率运动中的V̇O慢成分是额外ATP使用与无氧糖酵解产生ATP之间平衡的结果。

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