Scientific Reports (Jun 2024)

The effect of including a mobile arch, toe joint, and joint coupling on predictive neuromuscular simulations of human walking

  • Alexandra Buchmann,
  • Simon Wenzler,
  • Lauren Welte,
  • Daniel Renjewski

DOI
https://doi.org/10.1038/s41598-024-65258-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract Predictive neuromuscular simulations are a powerful tool for studying the biomechanics of human walking, and deriving design criteria for technical devices like prostheses or biorobots. Good agreement between simulation and human data is essential for transferability to the real world. The human foot is often modeled with a single rigid element, but knowledge of how the foot model affects gait prediction is limited. Standardized procedures for selecting appropriate foot models are lacking. We performed 2D predictive neuromuscular simulations with six different foot models of increasing complexity to answer two questions: What is the effect of a mobile arch, a toe joint, and the coupling of toe and arch motion through the plantar fascia on gait prediction? and How much of the foot’s anatomy do we need to model to predict sagittal plane walking kinematics and kinetics in good agreement with human data? We found that the foot model had a significant impact on ankle kinematics during terminal stance, push-off, and toe and arch kinematics. When focusing only on hip and knee kinematics, rigid foot models are sufficient. We hope our findings will help guide the community in modeling the human foot according to specific research goals and improve neuromuscular simulation accuracy.