Journal article
A mass-length scaling law for modeling muscle strength in the lower limb
TA Correa, MG Pandy
Journal of Biomechanics | Published : 2011
Abstract
Musculoskeletal computer models are often used to study muscle function in children with and without impaired mobility. Calculations of muscle forces depend in part on the assumed strength of each muscle, represented by the peak isometric force parameter, which is usually based on measurements obtained from cadavers of adult donors. The aim of the present study was twofold: first, to develop a method for scaling lower-limb peak isometric muscle forces in typically-developing children; and second, to determine the effect of this scaling method on model calculations of muscle forces obtained for normal gait. Muscle volumes were determined from magnetic resonance (MR) images obtained from ten c..
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Funding Acknowledgements
We thank Jana Bechmann and Mareike Sommer for assisting with segmentation of MR images, and Anthony Schache, Simon Harrison, and Tim Dorn for their constructive comments on earlier versions of this manuscript. We also thank Dr Katja Oberhofer for providing us with additional muscle volume data. Financial support was provided by the Australian Research Council under Discovery Project Grant DP0878705 and a VESKI Innovation Fellowship to M.G.P.