A Valid Novel Ground Reaction Force Distribution Algorithm to Determine Midfoot Kinetics of Gait With a Single Force Plate

Authors

Maxine L. Olson, Marquette University
Philip A. Voglewede, Marquette UniversityFollow
Joseph J. Krzak, Shriners Hospitals for Children
Steven A. Miller, Rosalind Franklin University of Medicine and Science
Christina M. R. Garman, Marquette University
Gerald F. Harris, Marquette University
Karen M. Kruger, Marquette University

Document Type

Article

Publication Date

3-2025

Publisher

Elsevier

Source Publication

Gait & Posture

Source ISSN

0966-6362

Original Item ID

DOI: 10.1016/j.gaitpost.2024.12.019

Abstract

Background

Understanding midfoot joint kinetics is valuable for improved treatment of foot pathologies. Segmental foot kinetics cannot currently be obtained in a standard gait lab without the use of multiple force plates or a pedobarographic plate overlaid with a force plate due to the single ground reaction force (GRF) vector.

Research Question

Can an algorithm be created to distribute the GRF into multiple segmental vectors that will allow for calculation of accurate midfoot and ankle moments?

Methods

20 pediatric subjects (10 typically developing, 10 with foot pathology) underwent multi-segment foot gait analysis using the Milwaukee Foot Model. A novel force distribution algorithm (FDA) was developed to proportionally divide the GRF into segmental vectors based on the location of the center of pressure and these vectors were used to calculate midfoot and ankle moments with an inverse dynamic approach. FDA GRF segmental vectors and midfoot/ankle moments were compared to metrics obtained from a previously validated pedobarographic plate methodology using correlations, statistical parametric mapping, and effect size with 95 % confidence intervals.

Results

All force distributions and midfoot/ankle moments waveforms were highly correlated with R> 0.99 for hindfoot and forefoot forces, R> 0.99 for sagittal and transverse plane moments, and R> 0.95 for coronal plane moments. No statistical differences were found during 2nd rocker where the FDA was applied.

Significance

Midfoot and ankle moments can be accurately obtained with our algorithm using standard equipment utilized in clinical and research motion analysis labs without the requirement of additional trials, or targeted walking by patients.

Comments

Gait & Posture, Vol. 117 (March 2025): 185-190. DOI.

Recommended Citation

Olson, Maxine L.; Voglewede, Philip A.; Krzak, Joseph J.; Miller, Steven A.; Garman, Christina M. R.; Harris, Gerald F.; and Kruger, Karen M., "A Valid Novel Ground Reaction Force Distribution Algorithm to Determine Midfoot Kinetics of Gait With a Single Force Plate" (2025). Mechanical Engineering Faculty Research and Publications. 338.
https://epublications.marquette.edu/mechengin_fac/338