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Contributions of Muscle Forces and Toe-off Kinematics to Peak Knee Flexion During the Swing Phase of Normal Gait: an Induced Position Analysis

Overview
Journal J Biomech
Specialty Physiology
Date 2004 Mar 30
PMID 15047002
Citations 47
Authors
Frank C Anderson
Saryn R Goldberg
Marcus G Pandy
Scott L Delp
Affiliations
Soon will be listed here.
Abstract

A three-dimensional dynamic simulation of walking was used together with induced position analysis to determine how kinematic conditions at toe-off and muscle forces following toe-off affect peak knee flexion during the swing phase of normal gait. The flexion velocity of the swing-limb knee at toe-off contributed 30 degrees to the peak knee flexion angle; this was larger than any contribution from an individual muscle or joint moment. Swing-limb muscles individually made large contributions to knee angle (i.e., as large as 22 degrees), but their actions tended to balance one another, so that the combined contribution from all swing-limb muscles was small (i.e., less than 3 degrees of flexion). The uniarticular muscles of the swing limb made contributions to knee flexion that were an order of magnitude larger than the biarticular muscles of the swing limb. The results of the induced position analysis make clear the importance of knee flexion velocity at toe-off relative to the effects of muscle forces exerted after toe-off in generating peak knee flexion angle. In addition to improving our understanding of normal gait, this study provides a basis for analyzing stiff-knee gait, a movement abnormality in which knee flexion in swing is diminished.

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