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一种新的方法,用于评估非实验室环境中的着陆运动学。

A new method for assessing landing kinematics in non-laboratory settings.

机构信息

Department of Biomedical Engineering and Mechanics, Virginia Tech, United States.

Department of Biomedical Engineering and Mechanics, Virginia Tech, United States.

出版信息

Phys Ther Sport. 2021 May;49:21-30. doi: 10.1016/j.ptsp.2021.01.012. Epub 2021 Jan 30.

DOI:10.1016/j.ptsp.2021.01.012
PMID:33550202
Abstract

OBJECTIVES

  1. Determine the concurrent validity of using automated 2D video analysis relative to 3D motion capture for assessing frontal and sagittal-plane knee kinematics during landing, 2) compare the accuracy of visually estimating joint center locations (2D Manual) with computing joint center locations using anatomical markers (2D Automatic), and 3) compare landing kinematics between a controlled laboratory setting and a non-laboratory setting.

DESIGN

Validity/repeatability study.

SETTINGS

Biomechanics research laboratory and non-laboratory athletic facility.

PARTICIPANTS

Thirty uninjured recreational athletes.

MAIN OUTCOME MEASURES

Peak knee flexion, knee flexion range of motion, peak knee frontal plane projection angle, and knee frontal plane projection angle range of motion during bilateral and unilateral landing were measured simultaneously in 3D using motion capture and in 2D using two low-cost video cameras during the first study session (biomechanics research laboratory), and in 2D only during the second study session (non-laboratory athletic facility).

RESULTS

There was good to excellent agreement between 3D motion capture and both 2D Manual (ICC = 0.86-0.99) and 2D Automatic (ICC = 0.89-0.99) video analysis methods. There was good to excellent agreement between data collected in a laboratory and non-laboratory setting (ICC = 0.75-0.95).

CONCLUSION

The methods introduced in this study are inexpensive, reliable, and feasible for use in non-laboratory settings.

摘要

目的

1)确定使用自动 2D 视频分析与 3D 运动捕捉评估落地时膝关节额状面和矢状面运动学的同时效度,2)比较视觉估计关节中心位置(2D 手动)与使用解剖标记计算关节中心位置(2D 自动)的准确性,以及 3)比较受控实验室环境与非实验室环境下的着陆运动学。

设计

有效性/可重复性研究。

地点

生物力学研究实验室和非实验室运动设施。

参与者

30 名未受伤的娱乐运动员。

主要观察指标

在第一次研究会议(生物力学研究实验室)中,使用运动捕捉在 3D 中同时测量双侧和单侧着陆时的峰值膝关节屈曲、膝关节屈曲活动度、峰值膝关节额状面投影角度和膝关节额状面投影角度活动度,在二维中仅使用两个低成本摄像机在第二次研究会议(非实验室运动设施)中进行测量。

结果

3D 运动捕捉与 2D 手动(ICC=0.86-0.99)和 2D 自动(ICC=0.89-0.99)视频分析方法之间具有良好到极好的一致性。在实验室和非实验室环境中收集的数据之间具有良好到极好的一致性(ICC=0.75-0.95)。

结论

本研究中介绍的方法价格低廉、可靠且适用于非实验室环境。

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