在运动捕捉实验室进行运动测试期间跟踪躯干的模型变体。

Model variations for tracking the trunk during sports testing in a motion capture lab.

作者信息

Ulman Sophia, Loewen Alex, Erdman Ashley, Õunpuu Sylvia, Chafetz Ross, Tulchin-Francis Kirsten, Wren Tishya A L

机构信息

Orthopedic and Sports Medicine Center, Scottish Rite for Children, Dallas, TX, United States.

Department of Orthopedic Surgery, University of Texas Southwestern Medical Center, Dallas, TX, United States.

出版信息

Front Sports Act Living. 2024 Jul 19;6:1429822. doi: 10.3389/fspor.2024.1429822. eCollection 2024.

DOI:10.3389/fspor.2024.1429822

PMID:39101153

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11294157/

Abstract

INTRODUCTION

As motion capture technology becomes more popular for athlete monitoring and return-to-play evaluation, it is imperative that trunk mechanics are modeled similarly across participants. The purpose of this study was to determine how adjusting marker placement at the sternum or removing potentially occluded markers for purposes of tracking the trunk segment influences trunk kinematics during gait and a drop vertical jump (DVJ).

METHODS

Sagittal plane trunk angles of 18 participants were computed for a Definition Model and three trunk model variations. Model variations were specifically chosen to avoid difficulties with placement of the sternum and/or thorax markers in female participants due to sports bra coverage and/or occlusion. Intraclass correlation coefficients were computed per trunk model variation to determine agreement with the Definition Model.

RESULTS

The Mid-Sternum model, in which the xiphoid process marker was adjusted to the midpoint of the xiphoid process and jugular notch, exhibited the least discrepancies and excellent agreement with the Definition Model across both tasks. Alternatively, the No-Thorax model, in which the thorax marker was removed, exhibited the greatest kinematic differences during the DVJ and moderate to excellent agreement across both tasks.

CONCLUSION

The marker set chosen to track trunk motion during dynamic tasks must include locations that can be placed similarly on all participants. Based on these findings, the xiphoid process marker may be adjusted superiorly prior to the collection of dynamic trials. The recommended model for tracking the trunk segment includes marker placements on the jugular notch, mid-sternum, and 1st and 10th thoracic spinous processes.

摘要

引言

随着运动捕捉技术在运动员监测和恢复参赛评估中越来越受欢迎，至关重要的是在所有参与者中以相似的方式对躯干力学进行建模。本研究的目的是确定为了追踪躯干节段而调整胸骨处的标记放置或移除可能被遮挡的标记如何影响步态和垂直纵跳（DVJ）过程中的躯干运动学。

方法

针对一个定义模型和三种躯干模型变体，计算了18名参与者的矢状面躯干角度。特别选择模型变体是为了避免由于运动胸罩覆盖和/或遮挡而在女性参与者中出现胸骨和/或胸部标记放置困难的情况。针对每个躯干模型变体计算组内相关系数，以确定与定义模型的一致性。

结果

在剑突标记调整到剑突中点和颈静脉切迹的胸骨中点模型中，在两项任务中与定义模型的差异最小且一致性极佳。或者，移除胸部标记的无胸部模型在垂直纵跳过程中表现出最大的运动学差异，在两项任务中的一致性为中等至极佳。

结论

在动态任务中选择用于追踪躯干运动的标记集必须包括能够在所有参与者身上以相似方式放置的位置。基于这些发现，在收集动态试验之前，可将剑突标记向上调整。推荐的用于追踪躯干节段的模型包括在颈静脉切迹、胸骨中点以及第1和第10胸椎棘突处放置标记。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3181/11294157/0ada4da0433a/fspor-06-1429822-g001.jpg

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在运动捕捉实验室进行运动测试期间跟踪躯干的模型变体。

Model variations for tracking the trunk during sports testing in a motion capture lab.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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