Control of Interjoint Coordination during the Swing Phase of Normal Gait at Different SpeedsReport as inadecuate

Control of Interjoint Coordination during the Swing Phase of Normal Gait at Different Speeds

Control of Interjoint Coordination during the Swing Phase of Normal Gait at Different Speeds - Download this document for free, or read online. Document in PDF available to download.


Shemmell, Jonathan, Jennifer Johansson, Vanessa Portra, Gerald L Gottlieb, James S Thomas, Daniel M Corcos. -Control of interjoint coordination during the swing phase of normal gait at different speeds- Journal of NeuroEngineering and Rehabilitation 4:10. 2007


BACKGROUNDIt has been suggested that the control of unconstrained movements is simplified via the imposition of a kinetic constraint that produces dynamic torques at each moving joint such that they are a linear function of a single motor command. The linear relationship between dynamic torques at each joint has been demonstrated for multijoint upper limb movements. The purpose of the current study was to test the applicability of such a control scheme to the unconstrained portion of the gait cycle – the swing phase. METHODSTwenty-eight neurologically normal individuals walked along a track at three different speeds. Angular displacements and dynamic torques produced at each of the three lower limb joints hip, knee and ankle were calculated from segmental position data recorded during each trial. We employed principal component PC analysis to determine 1 the similarity of kinematic and kinetic time series at the ankle, knee and hip during the swing phase of gait, and 2 the effect of walking speed on the range of joint displacement and torque. RESULTSThe angular displacements of the three joints were accounted for by two PCs during the swing phase Variance accounted for – PC1: 75.1 ± 1.4%, PC2: 23.2 ± 1.3%, whereas the dynamic joint torques were described by a single PC Variance accounted for – PC1: 93.8 ± 0.9%. Increases in walking speed were associated with increases in the range of motion and magnitude of torque at each joint although the ratio describing the relative magnitude of torque at each joint remained constant. CONCLUSIONOur results support the idea that the control of leg swing during gait is simplified in two ways: 1 the pattern of dynamic torque at each lower limb joint is produced by appropriately scaling a single motor command and 2 the magnitude of dynamic torque at all three joints can be specified with knowledge of the magnitude of torque at a single joint. Walking speed could therefore be altered by modifying a single value related to the magnitude of torque at one joint.Rights

Copyright 2007 Shemmell et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

NeuroMuscular Research Center Papers -

Author: Shemmell, Jonathan - Johansson, Jennifer - Portra, Vanessa - Gottlieb, Gerald L. - Thomas, James S. - Corcos, Daniel M. - -


Related documents