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Modeling toes contributes to realistic stance knee mechanics in three-dimensional predictive simulations of walking

Antoine Falisse, Maarten Afschrift, Friedl De Groote

2022PLoS ONE42 citationsDOIOpen Access PDF

Abstract

Physics-based predictive simulations have been shown to capture many salient features of human walking. Yet they often fail to produce realistic stance knee and ankle mechanics. While the influence of the performance criterion on the predicted walking pattern has been previously studied, the influence of musculoskeletal mechanics has been less explored. Here, we investigated the influence of two mechanical assumptions on the predicted walking pattern: the complexity of the foot model and the stiffness of the Achilles tendon. We found, through three-dimensional muscle-driven predictive simulations of walking, that modeling the toes, and thus using two-segment instead of single-segment foot models, contributed to robustly eliciting physiological stance knee flexion angles, knee extension torques, and knee extensor activity. Modeling toes also slightly decreased the first vertical ground reaction force peak, increasing its agreement with experimental data, and improved stance ankle kinetics. It nevertheless slightly worsened predictions of ankle kinematics. Decreasing Achilles tendon stiffness improved the realism of ankle kinematics, but there remain large discrepancies with experimental data. Overall, this simulation study shows that not only the performance criterion but also mechanical assumptions affect predictive simulations of walking. Improving the realism of predictive simulations is required for their application in clinical contexts. Here, we suggest that using more complex foot models might contribute to such realism.

Topics & Concepts

KinematicsAnkleGaitPhysical medicine and rehabilitationBiomechanicsStiffnessAchilles tendonGround reaction forceComputer scienceGait analysisMechanicsPhysicsSimulationMedicineTendonClassical mechanicsAnatomyThermodynamicsMuscle activation and electromyography studiesSports Performance and TrainingLower Extremity Biomechanics and Pathologies
Modeling toes contributes to realistic stance knee mechanics in three-dimensional predictive simulations of walking | Litcius