通过工作区间内功率输出变化优化间歇训练。

Optimizing Interval Training Through Power-Output Variation Within the Work Intervals.

作者信息

Bossi Arthur H, Mesquida Cristian, Passfield Louis, Rønnestad Bent R, Hopker James G

出版信息

Int J Sports Physiol Perform. 2020 Apr 3;15(7):982-989. doi: 10.1123/ijspp.2019-0260. Print 2020 Aug 1.

DOI:10.1123/ijspp.2019-0260

PMID:32244222

Abstract

PURPOSE

Maximal oxygen uptake (V˙O2max) is a key determinant of endurance performance. Therefore, devising high-intensity interval training (HIIT) that maximizes stress of the oxygen-transport and -utilization systems may be important to stimulate further adaptation in athletes. The authors compared physiological and perceptual responses elicited by work intervals matched for duration and mean power output but differing in power-output distribution.

METHODS

Fourteen cyclists (V˙O2max 69.2 [6.6] mL·kg-1·min-1) completed 3 laboratory visits for a performance assessment and 2 HIIT sessions using either varied-intensity or constant-intensity work intervals.

RESULTS

Cyclists spent more time at >90%V˙O2max during HIIT with varied-intensity work intervals (410 [207] vs 286 [162] s, P = .02), but there were no differences between sessions in heart-rate- or perceptual-based training-load metrics (all P ≥ .1). When considering individual work intervals, minute ventilation (V˙E) was higher in the varied-intensity mode (F = 8.42, P = .01), but not respiratory frequency, tidal volume, blood lactate concentration [La], ratings of perceived exertion, or cadence (all F ≤ 3.50, ≥ .08). Absolute changes (Δ) between HIIT sessions were calculated per work interval, and Δ total oxygen uptake was moderately associated with ΔV˙E (r = .36, P = .002).

CONCLUSIONS

In comparison with an HIIT session with constant-intensity work intervals, well-trained cyclists sustain higher fractions of V˙O2max when work intervals involved power-output variations. This effect is partially mediated by an increased oxygen cost of hyperpnea and not associated with a higher [La], perceived exertion, or training-load metrics.

摘要

目的

最大摄氧量（V˙O2max）是耐力表现的关键决定因素。因此，设计能使氧运输和利用系统压力最大化的高强度间歇训练（HIIT）对于刺激运动员进一步适应可能很重要。作者比较了持续时间和平均功率输出匹配但功率输出分布不同的工作间歇所引发的生理和感知反应。

方法

14名自行车运动员（V˙O2max为69.2[6.6]mL·kg-1·min-1）完成3次实验室访视以进行表现评估，并使用强度变化或强度恒定的工作间歇进行2次HIIT训练。

结果

在采用强度变化工作间歇的HIIT训练中，自行车运动员在>90%V˙O2max时花费的时间更多（410[207]秒对286[162]秒，P = 0.02），但在基于心率或感知的训练负荷指标方面，各训练之间没有差异（所有P≥0.1）。在考虑单个工作间歇时，强度变化模式下的分钟通气量（V˙E）更高（F = 8.42，P = 0.01），但呼吸频率、潮气量、血乳酸浓度[La]、自觉用力程度评分或踏频没有差异（所有F≤3.50，≥0.08）。每次工作间歇计算HIIT训练之间的绝对变化（Δ），且Δ总摄氧量与ΔV˙E中度相关（r = 0.36，P = 0.002）。

结论

与采用强度恒定工作间歇的HIIT训练相比，训练有素的自行车运动员在工作间歇涉及功率输出变化时能维持更高比例的V˙O2max。这种效应部分由通气过度增加的氧消耗介导，且与更高的[La]、自觉用力程度或训练负荷指标无关。

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通过工作区间内功率输出变化优化间歇训练。

Optimizing Interval Training Through Power-Output Variation Within the Work Intervals.

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METHODS

RESULTS

CONCLUSIONS

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结果

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