Study on foot-type classification for young adults based on static and dynamic plantar pressure distribution

Author:

Tang Xinyao12,Wang Xupeng12ORCID,Ji Xiaomin12,Wang Yunqian2,Chen Wenhui2,Wei Yuchen2,Zhou Yawen2

Affiliation:

1. School of Mechanical and Precision Instrument Engineering, Xi’an University of Technology, Xi’an, China

2. Research Center for Civil-Military Integration and Protection Equipment Design Innovation, Xi’an University of Technology, Xi’an, China

Abstract

The application of an effective and reliable foot type classification method is very important for foot type judgment, injury risk assessment, and correction. Therefore, this paper mainly aims to propose a new foot type classification method for young people based on bitmap index (BI), compare it with the traditional footprint classification method, and put forward and analyze the factors affecting foot type classification. Thirty-one healthy volunteers were asked to perform two types tests in order to study the plantar pressure distribution with static and dynamic conditions, the first type is footprint test with full load of static, and the other type is plantar pressure distribution, which contains four different tests: no load, half load, and full load of static state, as well as dynamic plantar pressure distribution during process of walking. The Intraclass Correlation Coefficient results (ICC) were good reliable and reproducible for BI value with dynamic test (DT-BI value 0.738, 95% confidence interval [0.535, 0.848], [Formula: see text]) and full-load (FL-BI value 0.725 [0.281, 0.814], [Formula: see text], p < 0.001), obtained with individual measures and a two-way mixed-effects model. It can be seen from Kappa coefficient and density map that DT-BI has high classification accuracy. Classification of foot type based on bitmap index values showed good reliability in people with varying BMI, which can help clinicians and researchers segment the sample population to better distinguish between different foot types of activity, gait or treatment effects.

Funder

Ministry of education Youth Fund Project

Outstanding Talents Support Program Project

Common technology and field fund for equipment pre research

Publisher

SAGE Publications

Subject

Mechanical Engineering

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