跑步机行走过程中，中性缓冲鞋内多节段足部模型的可靠性。

Reliability of a multi-segment foot model in a neutral cushioning shoe during treadmill walking.

作者信息

Balsdon Megan E R, Dombroski Colin E

机构信息

1SoleScience Inc., Fowler Kennedy Sports Medicine Clinic, 3M Building, Western University, London, ON N6A 3K7 Canada.

2Faculty of Health Science, Department of Physical Therapy, Western University, London, ON N6A 3K7 Canada.

出版信息

J Foot Ankle Res. 2018 Nov 14;11:60. doi: 10.1186/s13047-018-0301-2. eCollection 2018.

DOI:10.1186/s13047-018-0301-2

PMID:30473733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6236956/

Abstract

BACKGROUND

Detailed kinematics of the foot has been frequently reported on in the literature, specifically using various multi-segment foot models. It is important to identify the reliability of a multi-segment foot model in a population of mixed genders and activity levels, while walking in commonly used footwear. The main objective of this study was to investigate the between-day reliability and within-session variability of the Oxford Foot Model (OFM) while walking in a neutral cushioning shoe.

METHODS

A 7-camera Vicon motion capture system was used along with 29 passive reflective markers, placed on the participant to examine the multi-segment foot kinematics of the left foot using the OFM. Windows were cut in New Balance 840 shoes following reports from a previous investigation to maintain shoe integrity during testing. Two walking sessions on separate days were collected for 12 healthy participants, with an average total of 22 gait cycles per day.

RESULTS

ICCs ranged from 0.020 to 0.964 for between-day reliability, and within-session ICC values ranged from 0.268 to 0.985. Between-day ICC values of the relative measures (excursion and range of motion (ROM)) were higher than the absolute angle measures (angle at foot strike and peak angle). Largest differences were measured in the transverse plane, and the smallest differences in the sagittal plane. Bland-Altman plots revealed best agreement in the frontal and sagittal planes. SEM values ranged from 0.04 to 3.5 for the between-day reliability.

CONCLUSIONS

Between-day reliability and within-session variability were comparable to previous studies for adults walking barefoot and shod. This research demonstrates that the OFM can produce reliable data when applied to the assessment of a shod foot.

摘要

背景

足部的详细运动学在文献中已有频繁报道，特别是使用各种多节段足部模型。在不同性别和活动水平的人群中，穿着常用鞋类行走时，确定多节段足部模型的可靠性非常重要。本研究的主要目的是调查在穿着中性缓冲鞋行走时牛津足部模型（OFM）的日间可靠性和组内变异性。

方法

使用7台摄像机的Vicon运动捕捉系统以及29个被动反光标记，放置在参与者身上，以使用OFM检查左脚的多节段足部运动学。根据先前调查的报告，在新百伦840鞋上切开窗口，以在测试期间保持鞋子的完整性。为12名健康参与者收集了在不同日期的两次步行测试，平均每天共有22个步态周期。

结果

日间可靠性的组内相关系数（ICC）范围为0.020至0.964，组内ICC值范围为0.268至0.985。相对测量值（偏移和运动范围（ROM））的日间ICC值高于绝对角度测量值（足跟着地角度和峰值角度）。在横断面测量的差异最大，矢状面的差异最小。Bland-Altman图显示在额面和矢状面的一致性最佳。日间可靠性的标准误（SEM）值范围为0.04至3.5。

结论

日间可靠性和组内变异性与先前关于成人赤脚和穿鞋行走的研究相当。这项研究表明，OFM应用于穿鞋足部评估时可以产生可靠的数据。

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跑步机行走过程中，中性缓冲鞋内多节段足部模型的可靠性。

Reliability of a multi-segment foot model in a neutral cushioning shoe during treadmill walking.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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