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力过滤截止频率对落地时峰值膝关节外展力矩的“影响”:人为因素还是“人为因素”?

The 'impact' of force filtering cut-off frequency on the peak knee abduction moment during landing: artefact or 'artifiction'?

机构信息

Sports Health and Performance Institute, The Ohio State University, Columbus, Ohio, USA.

出版信息

Br J Sports Med. 2014 Mar;48(6):464-8. doi: 10.1136/bjsports-2012-091398. Epub 2012 Aug 14.

DOI:10.1136/bjsports-2012-091398
PMID:22893510
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4163685/
Abstract

BACKGROUND

Joint moments computed using inverse dynamic techniques are important estimators of net joint loads. Joints moments computed from marker position and ground reaction force data filtered using different cut-off frequencies may capture changes in moment magnitudes at a single joint that exceed normal physiological response. Peak external knee abduction moment (KAM) generated during landing (ie, the drop vertical jump, DVJ) predicts anterior cruciate ligament injury risk using marker and force data filtered at different cut-off frequencies. The purpose of the current investigation was to determine the effects of using the same low cut-off frequencies versus different cut-off frequencies on joint moment magnitudes to evaluate if artificial smoothing attenuates actual resultant joint loads related to injury risk.

METHODS

Twenty-two female, high school volleyball players performed three maximum DVJs in a laboratory setting. The average peak KAM was computed for each knee using marker and force data filtered with the same low cut-off frequencies and different cut-off frequencies.

RESULTS

Peak KAMs were significantly larger using different cut-off frequencies. The order of athletes ranked based on the magnitude of their peak KAMs did not significantly change across all filtering cut-off frequencies.

CONCLUSIONS

The magnitude of peak KAM may differ when the same low or different higher cut-off frequencies are used to filter marker and ground reaction forces (GRF) data collected using standard motion capture equipment. It is not clear to what extent the decrease in peak KAM reported when the same low cut-off frequencies were used was solely due to attenuation of the GRF signal.

摘要

背景

使用反向动力学技术计算的关节力矩是净关节载荷的重要估计值。使用不同截止频率滤波的标记位置和地面反作用力数据计算出的关节力矩,可能会捕捉到单个关节力矩幅度的变化,超出正常生理反应。使用不同截止频率滤波的标记和力数据计算得出的落地时(即垂直跳落,DVJ)的膝关节外展峰值力矩(KAM)峰值可预测前交叉韧带损伤风险。本研究的目的是确定使用相同低截止频率与不同截止频率对关节力矩幅度的影响,以评估人工平滑是否会减弱与损伤风险相关的实际综合关节载荷。

方法

22 名女性高中排球运动员在实验室环境中进行了三次最大的 DVJ。使用相同的低截止频率和不同的截止频率对标记和力数据进行滤波,计算每个膝关节的平均最大 KAM。

结果

使用不同截止频率时,最大 KAM 明显更大。根据运动员的最大 KAM 幅度对运动员进行排名的顺序,在所有滤波截止频率下均未发生显著变化。

结论

当使用相同的低截止频率或不同的更高截止频率来过滤使用标准运动捕捉设备收集的标记和地面反作用力(GRF)数据时,最大 KAM 的幅度可能会有所不同。当使用相同的低截止频率时,报告的最大 KAM 下降幅度在多大程度上仅仅是由于 GRF 信号的衰减所致尚不清楚。

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