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

Beskrivning

In this paper, we developed and verified a semi-automated atlas-based EMG-assisted musculoskeletal finite element modeling workflow with a focus on feasibility for a rapid and user-friendly tool. The files uploaded here contain the template FE model (i.e., Abaqus input file) of the study.
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Publiceringsår

2022

Typ av data

Upphovspersoner

Griffith Centre of Biomedical and Rehabilitation Engineering and Griffith University

David Lloyd - Medarbetare

David Saxby - Medarbetare

Helsinki University Hospital and University of Helsinki

Jari Arokoski - Medarbetare

Kuopio University Hospital

Juha-Sampo Suomalainen - Medarbetare

University of Eastern Finland and University of Copenhagen

Lauri Stenroth - Medarbetare

Mika Mononen - Medarbetare

Paavo Vartiainen - Medarbetare

Pasi Karjalainen - Medarbetare

Petri Tanska - Medarbetare

Rami Korhonen - Medarbetare

Amir Esrafilian - Upphovsperson, Utgivare

Projekt

Övriga uppgifter

Vetenskapsområden

Övrig naturvetenskap; Medicinsk teknik; Hälsovetenskap

Språk

Öppen tillgång

Öppet

Licens

Creative Commons Attribution 4.0 International (CC BY 4.0)

Nyckelord

electromyography, finite element analysis, daily activities, Knee osteoarthritis, musculoskeletal modeling, rapid multiscale modeling

Temporal täckning

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