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静息状态下 VO2 升高本身并不会减缓工作-休息运动转换期间的 O2 摄取动力学。

Elevated baseline VO2 per se does not slow O2 uptake kinetics during work-to-work exercise transitions.

机构信息

School of Sport and Health Sciences, St. Luke's Campus, Univ. of Exeter, Heavitree Rd., Exeter, Devon EX1 2LU, UK.

出版信息

J Appl Physiol (1985). 2010 Oct;109(4):1148-54. doi: 10.1152/japplphysiol.00550.2010. Epub 2010 Aug 19.

DOI:10.1152/japplphysiol.00550.2010
PMID:20724564
Abstract

We investigated whether the characteristic slowing of pulmonary oxygen uptake (VO2) kinetics during "work-to-work" exercise is attributable to elevations in baseline metabolic rate (VO2) as opposed to the elevated baseline work rate, per se. We hypothesized that a step transition to a higher work rate from "unloaded" cycling, but with elevations in VO2 [and heart rate (HR)] reflective of a work-to-work transition, would result in a lengthened phase II time constant (τ(p)). Seven male subjects (mean ± SD age 27 ± 10 yr) completed 1) transitions to a high-intensity work rate from a moderate-intensity work rate (M→H) and 2) two consecutive bouts of high-intensity exercise (U→H and E→H, respectively) initiated from unloaded cycling, with the time separating the exercise bouts chosen such that the baseline VO2 for the second transition was similar to the baseline VO2 for the M→H transition. The τ(p) for M→H (48 ± 16 s) was significantly greater (P < 0.05) than the τ(p) for U→H (28 ± 8 s) and E→H (27 ± 6 s), which did not differ significantly. These findings suggest that the altered VO2 dynamics that are observed during work-to-work exercise are not related to the elevated baseline VO2 (or HR) per se; rather, these effects appear to be linked to the elevated baseline work rate, which would be expected to dictate the subsequent muscle fiber recruitment profile.

摘要

我们研究了在“工作到工作”运动期间肺氧摄取(VO2)动力学的特征性减慢是否归因于基线代谢率(VO2)的升高,而不是基线工作率本身的升高。我们假设,从“无负载”骑行向更高工作率的阶跃过渡,但 VO2 [和心率(HR)]升高反映了工作到工作的过渡,将导致第二相时间常数(τ(p))延长。7 名男性受试者(平均年龄 ± 标准差为 27 ± 10 岁)完成了 1)从中等强度工作率向高强度工作率的过渡(M→H)和 2)从无负载骑行开始的两次连续高强度运动(U→H 和 E→H),两次运动之间的时间间隔选择使得第二次过渡的基线 VO2与 M→H 过渡的基线 VO2相似。M→H 的 τ(p)(48 ± 16 s)明显大于 U→H 的 τ(p)(28 ± 8 s)和 E→H 的 τ(p)(27 ± 6 s)(P < 0.05),而后者之间没有显著差异。这些发现表明,在工作到工作运动期间观察到的改变的 VO2 动力学与升高的基线 VO2(或 HR)本身无关;相反,这些影响似乎与升高的基线工作率有关,这将预期决定随后的肌肉纤维募集模式。

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