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熵度量在精英橄榄球运动员使用球时检测到抗阻训练中运动可变性增加。

Entropy measures detect increased movement variability in resistance training when elite rugby players use the ball.

机构信息

National Institute of Physical Education of Catalonia (INEFC), Spain.

National Institute of Physical Education of Catalonia (INEFC), Spain.

出版信息

J Sci Med Sport. 2018 Dec;21(12):1286-1292. doi: 10.1016/j.jsams.2018.05.007. Epub 2018 May 24.

DOI:10.1016/j.jsams.2018.05.007
PMID:29804653
Abstract

OBJECTIVES

This study described the variability in acceleration during a resistance training task, performed in horizontal inertial flywheels without (NOBALL) or with the constraint of catching and throwing a rugby ball (BALL).

DESIGN AND METHODS

Twelve elite rugby players (mean±SD: age 25.6±3.0years, height 1.82±0.07m, weight 94.0±9.9kg) performed a resistance training task in both conditions (NOBALL AND BALL). Players had five minutes of a standardized warm-up, followed by two series of six repetitions of both conditions: at the first three repetitions the intensity was progressively increased while the last three were performed at maximal voluntary effort. Thereafter, the participants performed two series of eight repetitions from each condition for two days and in a random order, with a minimum of 10min between series. The structure of variability was analysed using non-linear measures of entropy.

RESULTS

Mean changes (%; ±90% CL) of 4.64; ±3.1g for mean acceleration and 39.48; ±36.63a.u. for sample entropy indicated likely and very likely increase when in BALL condition. Multiscale entropy also showed higher unpredictability of acceleration under the BALL condition, especially at higher time scales.

CONCLUSIONS

The application of match specific constraints in resistance training for rugby players elicit different amount of variability of body acceleration across multiple physiological time scales. Understanding the non-linear process inherent to the manipulation of resistance training variables with constraints and its motor adaptations may help coaches and trainers to enhance the effectiveness of physical training and, ultimately, better understand and maximize sports performance.

摘要

目的

本研究描述了在无抛球(NOBALL)或抛接球(BALL)约束条件下,使用水平惯性飞轮进行抗阻训练时加速度的变化。

设计与方法

12 名精英橄榄球运动员(平均±SD:年龄 25.6±3.0 岁,身高 1.82±0.07m,体重 94.0±9.9kg)分别在两种条件下(NOBALL 和 BALL)完成抗阻训练任务。运动员先进行 5 分钟的标准化热身,然后进行两组各 6 次重复的训练:在前 3 次重复时逐渐增加强度,最后 3 次则以最大自主努力进行。之后,参与者以随机顺序在两天内完成每组条件下 8 次重复的两个系列,两次重复之间至少间隔 10min。使用熵的非线性测度分析变异性的结构。

结果

平均加速度的平均变化(%;±90%可信区间)为 4.64;±3.1g,样本熵为 39.48;±36.63a.u.,表明 BALL 条件下可能和极有可能增加。多尺度熵也表明,BALL 条件下加速度的不可预测性更高,尤其是在较高的时间尺度上。

结论

在橄榄球运动员的抗阻训练中应用特定比赛的约束条件会引起身体加速度在多个生理时间尺度上产生不同的变化量。了解具有约束条件的抗阻训练变量的非线性处理及其运动适应过程,可以帮助教练和训练员提高身体训练的效果,最终更好地理解和最大限度地提高运动表现。

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