研究低成本技术用于评估髌股疼痛患者基于跳跃的运动表现的有效性。

Investigating the validity of low-cost technologies for the assessment of jumping-based performances in people with patellofemoral pain.

作者信息

Deysel G, van Aswegen M, Kramer M

机构信息

Physical Activity, Sport, and Recreation (PhASRec) Research Focus Area, North-West University, Potchefstroom, North West Province, South Africa.

出版信息

S Afr J Sports Med. 2025 May 15;37(1):v37i1a20301. doi: 10.17159/2078-516X/2025/v37i1a20301. eCollection 2025.

DOI:10.17159/2078-516X/2025/v37i1a20301

PMID:40376104

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12077824/

Abstract

BACKGROUND

Patellofemoral pain (PFP) is prevalent across various age and activity groups and poses a risk for developing patellofemoral osteoarthritis. Since load on the patellofemoral joint is greatest during jumping manoeuvres, validating affordable measuring instruments to extract jumping-related variables is important for guiding rehabilitation.

OBJECTIVES

To evaluate the validity of low-cost devices against 'gold standard' force plates during jumping and to quantify differences in kinematic variables between low-cost devices and across different groups (PFP vs. Control).

METHODS

A repeated-measures design of between- and within-subject factors was used. Thirty-two participants (Control: n=16; PFP: n=16) volunteered for the study. Single leg drop jump variables were validated using force plates and 3D motion capture (mocap) as the criterion standards against the MyJump2 and Tracker software applications as the reference standards.

RESULTS

Good-to-excellent correlations were evident across all variables when comparing the force plates to MyJump2 (r=0.83-0.97) and Tracker (r=0.83-0.89) applications. Tracker was not significantly different from force plates or mocap for jump height (p=0.130) and flight time (p=0.230), but overestimated contact time for both groups (control group [p<0.001] and PFP group [p=0.007]). MyJump2 was not significantly different from force plates regarding contact time in the PFP group (p=0.500) but showed significant differences for the other parameters (p<0.001).

CONCLUSION

Both Tracker and MyJump2 applications show promise as alternatives to laboratory-grade equipment, with MyJump2 emerging as the top low-cost tool.

摘要

背景

髌股疼痛（PFP）在各个年龄和活动群体中都很普遍，并且有发展为髌股骨关节炎的风险。由于在跳跃动作中髌股关节上的负荷最大，因此验证经济实惠的测量仪器以提取与跳跃相关的变量对于指导康复至关重要。

目的

评估低成本设备在跳跃过程中相对于“金标准”测力板的有效性，并量化低成本设备之间以及不同组（PFP组与对照组）之间运动学变量的差异。

方法

采用了受试者间和受试者内因素的重复测量设计。32名参与者（对照组：n = 16；PFP组：n = 16）自愿参加该研究。使用测力板和3D动作捕捉（mocap）作为标准标准，将单腿下落跳跃变量与MyJump2和Tracker软件应用程序作为参考标准进行验证。

结果

将测力板与MyJump2（r = 0.83 - 0.97）和Tracker（r = 0.83 - 0.89）应用程序进行比较时，所有变量之间均呈现出良好到极好的相关性。Tracker在跳跃高度（p = 0.130）和飞行时间（p = 0.230）方面与测力板或mocap没有显著差异，但两组（对照组[p < 0.001]和PFP组[p = 0.007]）的接触时间均被高估。在PFP组中，MyJump2在接触时间方面与测力板没有显著差异（p = 0.500），但在其他参数方面存在显著差异（p < 0.001）。

结论

Tracker和MyJump2应用程序都有望成为实验室级设备的替代品，其中MyJump2成为顶级低成本工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1997/12077824/626f3059a5a0/2078-516x-37-v37i1a20301-g001.jpg

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研究低成本技术用于评估髌股疼痛患者基于跳跃的运动表现的有效性。

Investigating the validity of low-cost technologies for the assessment of jumping-based performances in people with patellofemoral pain.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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