Prediction of muscle recruitment and its effect on joint reaction forces during knee exercises

Guoan Li; Kenji Kawamura; Peter Barrance; Edmund Y.S. Chao; Ken Kaufman

doi:10.1114/1.104

Prediction of muscle recruitment and its effect on joint reaction forces during knee exercises

Guoan Li, Kenji Kawamura, Peter Barrance, Edmund Y.S. Chao, Ken Kaufman

Orthopedic Surgery

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

This study examined the hypothesis that muscle recruitment of the tibiofemoral joint and joint reaction forces during isometric and isokinetic exercises depends on the existing degrees of freedom of the knee and the direction and type of external load applied during exercise. When three-dimensional knee joint rotation was considered (three degrees of freedom), antagonistic muscle activities were predicted using an inverse dynamic problem formulation and muscle modeling optimization procedures. The results showed that the antagonistic activities of flexors during knee flexion/extension exercise increased the joint compressive forces and decreased the anterior tibial shear forces. Comparison of different knee joint modeling assumptions indicated that modeling a single degree of freedom in flexion/extension for the knee will underestimate the antagonistic muscle function.

Original language	English (US)
Pages (from-to)	725-733
Number of pages	9
Journal	Annals of Biomedical Engineering
Volume	26
Issue number	4
DOIs	https://doi.org/10.1114/1.104
State	Published - 1998

Keywords

Inverse dynamics
Joint dynamics
Knee model
Muscle force
Optimization

ASJC Scopus subject areas

Biomedical Engineering

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10.1114/1.104

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@article{1ca76822405a4c9998bdfa27589d1067,

title = "Prediction of muscle recruitment and its effect on joint reaction forces during knee exercises",

abstract = "This study examined the hypothesis that muscle recruitment of the tibiofemoral joint and joint reaction forces during isometric and isokinetic exercises depends on the existing degrees of freedom of the knee and the direction and type of external load applied during exercise. When three-dimensional knee joint rotation was considered (three degrees of freedom), antagonistic muscle activities were predicted using an inverse dynamic problem formulation and muscle modeling optimization procedures. The results showed that the antagonistic activities of flexors during knee flexion/extension exercise increased the joint compressive forces and decreased the anterior tibial shear forces. Comparison of different knee joint modeling assumptions indicated that modeling a single degree of freedom in flexion/extension for the knee will underestimate the antagonistic muscle function.",

keywords = "Inverse dynamics, Joint dynamics, Knee model, Muscle force, Optimization",

author = "Guoan Li and Kenji Kawamura and Peter Barrance and Chao, {Edmund Y.S.} and Ken Kaufman",

note = "Funding Information: The authors would like to thank Dr. E. Genda, B. Chan, and Dr. D. Wilson for their helpful comments and suggestions and A. Troutman for editing the manuscript. This study was supported by NIH Grant Nos. CA40583 and CA23751.",

year = "1998",

doi = "10.1114/1.104",

language = "English (US)",

volume = "26",

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journal = "Annals of Biomedical Engineering",

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TY - JOUR

T1 - Prediction of muscle recruitment and its effect on joint reaction forces during knee exercises

AU - Li, Guoan

AU - Kawamura, Kenji

AU - Barrance, Peter

AU - Chao, Edmund Y.S.

AU - Kaufman, Ken

N1 - Funding Information: The authors would like to thank Dr. E. Genda, B. Chan, and Dr. D. Wilson for their helpful comments and suggestions and A. Troutman for editing the manuscript. This study was supported by NIH Grant Nos. CA40583 and CA23751.

PY - 1998

Y1 - 1998

N2 - This study examined the hypothesis that muscle recruitment of the tibiofemoral joint and joint reaction forces during isometric and isokinetic exercises depends on the existing degrees of freedom of the knee and the direction and type of external load applied during exercise. When three-dimensional knee joint rotation was considered (three degrees of freedom), antagonistic muscle activities were predicted using an inverse dynamic problem formulation and muscle modeling optimization procedures. The results showed that the antagonistic activities of flexors during knee flexion/extension exercise increased the joint compressive forces and decreased the anterior tibial shear forces. Comparison of different knee joint modeling assumptions indicated that modeling a single degree of freedom in flexion/extension for the knee will underestimate the antagonistic muscle function.

AB - This study examined the hypothesis that muscle recruitment of the tibiofemoral joint and joint reaction forces during isometric and isokinetic exercises depends on the existing degrees of freedom of the knee and the direction and type of external load applied during exercise. When three-dimensional knee joint rotation was considered (three degrees of freedom), antagonistic muscle activities were predicted using an inverse dynamic problem formulation and muscle modeling optimization procedures. The results showed that the antagonistic activities of flexors during knee flexion/extension exercise increased the joint compressive forces and decreased the anterior tibial shear forces. Comparison of different knee joint modeling assumptions indicated that modeling a single degree of freedom in flexion/extension for the knee will underestimate the antagonistic muscle function.

KW - Inverse dynamics

KW - Joint dynamics

KW - Knee model

KW - Muscle force

KW - Optimization

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Prediction of muscle recruitment and its effect on joint reaction forces during knee exercises

Abstract

Keywords

ASJC Scopus subject areas

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