Journal article
A generic musculoskeletal model of the juvenile lower limb for biomechanical analyses of gait
R Hainisch, A Kranzl, YC Lin, MG Pandy, M Gfoehler
Computer Methods in Biomechanics and Biomedical Engineering | Published : 2020
Abstract
The aim of this study was to develop a generic musculoskeletal model of a healthy 10-year-old child and examine the effects of geometric scaling on the calculated values of lower-limb muscle forces during gait. Subject-specific musculoskeletal models of five healthy children were developed from in vivo MRI data, and these models were subsequently used to create a generic juvenile (GJ) model. Calculations of lower-limb muscle forces for normal walking obtained from two scaled-generic versions of the juvenile model (SGJ1 and SGJ2) were evaluated against corresponding results derived from an MRI-based model of one subject (SSJ1). The SGJ1 and SGJ2 models were created by scaling the GJ model usi..
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Awarded by Technische Universität Wien Bibliothek
Funding Acknowledgements
This work was supported in part by the Austrian Science Fund (Grant P19162-B02), the Australian Research Council (Grant DP0878705), and an Innovation Fellowship from the Victorian Endowment for Science, Knowledge, and Innovation.