加速跑中的机械功率与代谢功率——第二部分：团队运动

Mechanical and metabolic power in accelerated running-Part II: team sports.

作者信息

Osgnach Cristian, di Prampero Pietro E, Zamparo Paola, Morin Jean-Benoit, Pavei Gaspare

机构信息

Department of Sport Science, Exelio srl, Udine, Italy.

Emeritus Professor of Physiology, University of Udine, Udine, Italy.

出版信息

Eur J Appl Physiol. 2024 Feb;124(2):417-431. doi: 10.1007/s00421-023-05286-1. Epub 2023 Aug 3.

DOI:10.1007/s00421-023-05286-1

PMID:37535141

Abstract

PURPOSE

This manuscript is devoted to discuss the interplay between velocity and acceleration in setting metabolic and mechanical power in team sports.

METHODS

To this aim, an essential step is to assess the individual Acceleration-Speed Profile (ASP) by appropriately analysing training sessions or matches. This allows one to estimate maximal mechanical and metabolic power, including that for running at constant speed, and hence to determine individual thresholds thereof.

RESULTS

Several approaches are described and the results, as obtained from 38 official matches of one team (Italian Serie B, season 2020-2021), are reported and discussed. The number of events in which the external mechanical power exceeded 80% of that estimated from the subject's ASP ([Formula: see text]) was 1.61 times larger than the number of accelerations above 2.5 m s ([Formula: see text]). The difference was largest for midfielders and smallest for attackers (2.30 and 1.36 times, respectively) due to (i) a higher starting velocity for midfielders and (ii) a higher external peak power for attackers in performing [Formula: see text]. From the energetic perspective, the duration and the corresponding metabolic power of high-demanding phases ([Formula: see text]) were essentially constant (6 s and 22 W kg, respectively) from the beginning to the end of the match, even if their number decreased from 28 in the first to 21 in the last 15-min period, as a consequence of the increased recovery time between [Formula: see text] from 26 s in the first to 37 s in the last 15-min period.

CONCLUSION

These data underline the flaws of acceleration counting above fixed thresholds.

摘要

目的

本手稿致力于探讨在团队运动中设定代谢和机械功率时速度与加速度之间的相互作用。

方法

为此，一个关键步骤是通过适当分析训练课程或比赛来评估个体加速度 - 速度曲线（ASP）。这使得人们能够估计最大机械和代谢功率，包括匀速跑步时的功率，从而确定其个体阈值。

结果

描述了几种方法，并报告和讨论了从一支球队（意大利乙级联赛，2020 - 2021赛季）的38场正式比赛中获得的结果。外部机械功率超过根据受试者ASP估计值的80%（[公式：见正文]）的事件数量比加速度超过2.5 m·s（[公式：见正文]）的数量大1.61倍。由于（i）中场球员的起始速度较高，以及（ii）前锋在执行[公式：见正文]时具有较高的外部峰值功率，这种差异在中场球员中最大，在前锋中最小（分别为2.30倍和1.36倍）。从能量角度来看，高要求阶段（[公式：见正文]）的持续时间和相应的代谢功率从比赛开始到结束基本保持恒定（分别为6秒和22 W·kg），即使其数量从第一节的28次减少到最后15分钟的21次，这是由于[公式：见正文]之间的恢复时间从第一节的26秒增加到最后15分钟的37秒。

结论

这些数据强调了超过固定阈值计算加速度的缺陷。

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加速跑中的机械功率与代谢功率——第二部分：团队运动

Mechanical and metabolic power in accelerated running-Part II: team sports.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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