Gait Alterations and Association With Worsening Knee Pain and Physical Function: A Machine Learning Approach With Wearable Sensors in the Multicenter Osteoarthritis Study

Kathryn L. Bacon*, David T. Felson, S. Reza Jafarzadeh, Vijaya B. Kolachalama, Jeffrey M. Hausdorff, Eran Gazit, Joshua J. Stefanik, Patrick Corrigan, Neil A. Segal, Cora E. Lewis, Michael C. Nevitt, Deepak Kumar

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Objective: The objective of this study was to identify gait alterations related to worsening knee pain and worsening physical function, using machine learning approaches applied to wearable sensor–derived data from a large observational cohort. Methods: Participants in the Multicenter Osteoarthritis Study (MOST) completed a 20-m walk test wearing inertial sensors on their lower back and ankles. Parameters describing spatiotemporal features of gait were extracted from these data. We used an ensemble machine learning technique (“super learning”) to optimally discriminate between those with and without worsening physical function and, separately, those with and without worsening pain over two years. We then used log-binomial regression to evaluate associations of the top 10 influential variables selected with super learning with each outcome. We also assessed whether the relation of altered gait with worsening function was mediated by changes in pain. Results: Of 2,324 participants, 29% and 24% had worsening knee pain and function over two years, respectively. From the super learner, several gait parameters were found to be influential for worsening pain and for worsening function. After adjusting for confounders, greater gait asymmetry, longer average step length, and lower dominant frequency were associated with worsening pain, and lower cadence was associated with worsening function. Worsening pain partially mediated the association of cadence with function. Conclusion: We identified gait alterations associated with worsening knee pain and those associated with worsening physical function. These alterations could be assessed with wearable sensors in clinical settings. Further research should determine whether they might be therapeutic targets to prevent worsening pain and worsening function.

Original languageEnglish
Pages (from-to)984-992
Number of pages9
JournalArthritis Care and Research
Volume76
Issue number7
DOIs
StatePublished - Jul 2024

Funding

FundersFunder number
University of Alabama
National Institutes of Health
University of Iowa
Boston University
National Institute on Aging
Rheumatology Research FoundationR01‐HL‐159620, P30‐AR‐0702571, R21‐CA‐253498, R21‐AR‐074578, R03‐AG‐060272, K01‐AR‐06972
Rheumatology Research Foundation
American Heart Association20SFRN35460031
American Heart Association

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