Journal article
Evaluation of predicted knee-joint muscle forces during gait using an instrumented knee implant
HJ Kim, JW Fernandez, M Akbarshahi, JP Walter, BJ Fregly, MG Pandy
Journal of Orthopaedic Research | WILEY | Published : 2009
DOI: 10.1002/jor.20876
Abstract
Musculoskeletal modeling and optimization theory are often used to determine muscle forces in vivo. However, convincing quantitative evaluation of these predictions has been limited to date. The present study evaluated model predictions of knee muscle forces during walking using in vivo measurements of joint contact loading acquired from an instrumented implant. Joint motion, ground reaction force, and tibial contact force data were recorded simultaneously from a single subject walking at slow, normal, and fast speeds. The body was modeled as an 8-segment, 21-degree-of-freedom articulated linkage, actuated by 58 muscles. Joint moments obtained from inverse dynamics were decomposed into leg-m..
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Awarded by Australian Research Council under a Discovery Project
Funding Acknowledgements
The authors gratefully acknowledge Dr. Darryl D'Lima and Dr. Cliff Colwell for providing the instrumented implant data and Dr. Scott Banks for providing the fluoroscopic motion data. This work was supported by an ARC Postdoctoral Fellowship (J. W. Fernandez), a VESKI Innovation Fellowship (M.G. Pandy), and an NSF CAREER Award (B. J. Fregly). Financial support was provided by the Australian Research Council under a Discovery Project Grant (DP0772838) and by National ICT Australia.