Biomechanical Evaluation Over Level Ground Walking of User-Specific Prosthetic Feet Designed Using the Lower Leg Trajectory Error Framework

Authors

Victor Prost, Massachusetts Institute of TechnologyFollow
W. Brett Johnson, Massachusetts Institute of Technology
Jenny A. Kent, University of Nevada, Las Vegas
Matthew J. Major, Northwestern University
Amos G. Winter V., Massachusetts Institute of TechnologyFollow

Document Type

Article

Publication Date

3-29-2022

Publication Title

Scientific Reports

Issue

1

First page number:

1

Last page number:

15

Abstract

The walking pattern and comfort of a person with lower limb amputation are determined by the prosthetic foot’s diverse set of mechanical characteristics. However, most design methodologies are iterative and focus on individual parameters, preventing a holistic design of prosthetic feet for a user’s body size and walking preferences. Here we refined and evaluated the lower leg trajectory error (LLTE) framework, a novel quantitative and predictive design methodology that optimizes the mechanical function of a user’s prosthesis to encourage gait dynamics that match their body size and desired walking pattern. Five people with unilateral below-knee amputation walked over-ground at self-selected speeds using an LLTE-optimized foot made of Nylon 6/6, their daily-use foot, and a standardized commercial energy storage and return (ESR) foot. Using the LLTE feet, target able-bodied kinematics and kinetics were replicated to within 5.2% and 13.9%, respectively, 13.5% closer than with the commercial ESR foot. Additionally, energy return and center of mass propulsion work were 46% and 34% greater compared to the other two prostheses, which could lead to reduced walking effort. Similarly, peak limb loading and flexion moment on the intact leg were reduced by an average of 13.1%, lowering risk of long-term injuries. LLTE-feet were preferred over the commercial ESR foot across all users and preferred over the daily-use feet by two participants. These results suggest that the LLTE framework could be used to design customized, high performance ESR prostheses using low-cost Nylon 6/6 material. More studies with large sample size are warranted for further verification.

Keywords

Mechanical engineering; Musculoskeletal system; Translational research

Disciplines

Physical Therapy

File Format

pdf

File Size

3000 KB

Language

English

Rights

IN COPYRIGHT. For more information about this rights statement, please visit http://rightsstatements.org/vocab/InC/1.0/

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Repository Citation

Prost, V., Johnson, W. B., Kent, J. A., Major, M. J., Winter V., A. G. (2022). Biomechanical Evaluation Over Level Ground Walking of User-Specific Prosthetic Feet Designed Using the Lower Leg Trajectory Error Framework. Scientific Reports(1), 1-15.
http://dx.doi.org/10.1038/s41598-022-09114-y