加载对最大垂直跳跃的影响：重量和惯性的选择性影响。

Effects of loading on maximum vertical jumps: Selective effects of weight and inertia.

机构信息

The Research Center, Faculty of Sports and Physical Education, University of Belgrade, Belgrade, Serbia.

出版信息

J Electromyogr Kinesiol. 2012 Apr;22(2):286-93. doi: 10.1016/j.jelekin.2011.12.002. Epub 2011 Dec 29.

DOI:10.1016/j.jelekin.2011.12.002

PMID:22209596

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3288269/

Abstract

A novel loading method was applied to explore selective effects of externally added weight (W), weight and inertia (W+I), and inertia (I) on maximum counter-movement jumps (CMJ) performed with arm swing. Externally applied extended rubber bands and/or loaded vest added W, W+I, and I corresponding to 10-40% of subjects' body mass. As expected, an increase in magnitude of all types of load was associated with an increase in ground reaction forces (GRF), as well as with a decrease in both the jumping performance and power output. However, of more importance could be that discernible differences among the effects of W, W+I, and I were recorded despite a relatively narrow loading range. In particular, an increase in W was associated with the minimal changes in movement kinematic pattern and smallest reduction of jumping performance, while also allowing for the highest power output. Conversely, W+I was associated with the highest ground reaction forces. Finally, the lowest maxima of GRF and power were associated with I. Although further research is apparently needed, the obtained finding could be of potential importance not only for understanding fundamental properties of the neuromuscular system, but also for optimization of loading in standard athletic training and rehabilitation procedures.

摘要

一种新的加载方法被应用于探索外加重量 (W)、重量和惯性 (W+I) 以及惯性 (I) 对带摆臂的最大反跳 (CMJ) 的选择性影响。外加的伸展橡皮筋和/或负重背心增加了相当于受试者体重的 10-40%的 W、W+I 和 I。正如预期的那样，所有类型的负荷的幅度增加与地面反作用力 (GRF) 的增加以及跳跃性能和功率输出的降低有关。然而，更重要的是，尽管加载范围相对较窄，但记录到了 W、W+I 和 I 的影响之间明显的差异。特别是，W 的增加与运动运动学模式的最小变化和跳跃性能的最小降低相关，同时也允许最高的功率输出。相反，W+I 与最高的地面反作用力相关。最后，与 I 相关的是 GRF 和功率的最小值。尽管显然需要进一步的研究，但所获得的发现不仅对理解神经系统的基本特性具有潜在的重要性，而且对标准运动训练和康复程序中的加载优化也具有重要意义。

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