Dynamic optimization of transfemoral prosthesis during swing phase with residual limb model

Abstract

A new simulation model was created with a transfemoral prosthesis including a residual limb muscle model during the swing phase. The optimal knee joint friction value was calculated to minimize muscle metabolic energy expenditure. Using this model to examine how an amputee could walk as fast as possible, the minimum swing duration was calculated. The obtained optimal joint friction value was close to the value the subject preferred when walking normally. The calculated minimum swing duration was close to the time the subject could achieve. The method of dynamic optimization with a musculoskeletal model used in this study indicated the possibility of obtaining optimal mechanical properties suited to each amputee's capability of mastering control of his/her residual limb.

Keywords:

• Biomechanics of prosthetic/orthotic devices
• transfemoral prosthesis
• swing phase
• dynamic optimization
• musculoskeletal modeling

Acknowledgements

The author would like to acknowledge Mr T. Yamashita, C.P.O., for technical assistance, and Dr T. Aoyama and Dr E. Genda for clinical comments.

Declaration of interest: The author reports no conflicts of interest. The author alone is responsible for the content and writing of the paper.