musculoskeletal modeling

An EMG-Assisted Muscle-Force Driven Finite Element Analysis Pipeline to Investigate Joint- and Tissue-Level Mechanical Responses in Functional Activities: Towards a Rapid Assessment Toolbox

An EMG-Assisted Muscle-Force Driven Finite Element Analysis Pipeline to Investigate Joint- and Tissue-Level Mechanical Responses in Functional Activities: Towards a Rapid Assessment Toolbox
An EMG-Assisted Muscle-Force Driven Finite Element Analysis Pipeline to Investigate Joint- and Tissue-Level Mechanical Responses in Functional Activities: Towards a Rapid Assessment Toolbox 788 444 IEEE Transactions on Biomedical Engineering (TBME)
This study established an electromyography-assisted neuromusculoskeletal rigid-body and finite element modeling pipeline enabled for large cohorts studies, encouraging further research to investigate the pipeline’s potential for personalized treatment-planning of knee osteoarthritis. read more

Neural Data-Driven Musculoskeletal Modeling for Personalized Neurorehabilitation Technologies
Author(s)3: Massimo Sartori, David G. Lloyd, Dario Farina
Neural Data-Driven Musculoskeletal Modeling for Personalized Neurorehabilitation Technologies 170 177 IEEE Transactions on Biomedical Engineering (TBME)

The development of personalized neurorehabilitation and augmentation technologies requires the profound understanding of the neuro-mechanical processes underlying an individual’s motor function, impairment, and recovery. A major challenge is the difficulty…

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An Open-Source Toolbox for Surrogate Modeling of Joint Contact Mechanics
Author(s)3: Ilan Eskinazi, Benjamin J. Fregly
An Open-Source Toolbox for Surrogate Modeling of Joint Contact Mechanics 170 177 IEEE Transactions on Biomedical Engineering (TBME)

Ilan Eskinazi and Benjamin J. Fregly, University of Florida, USA, Volume 63, Issue 2, Page: 269-277 Incorporation of elastic joint contact models into simulations of human movement could facilitate studying the…

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