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Predicting Multiple Sclerosis From Gait Dynamics Using an Instrumented Treadmill: A Machine Learning Approach

Rachneet Kaur, Zizhang Chen, Robert W. Motl, Manuel E. Hernandez, Richard B. Sowers

2020IEEE Transactions on Biomedical Engineering47 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: Multiple Sclerosis (MS) is a neurological condition which widely affects people 50-60 years of age. While clinical presentations of MS are highly heterogeneous, mobility limitations are one of the most frequent symptoms. This study examines a machine learning (ML) framework for identifying MS through spatiotemporal and kinetic gait features. METHODS: In this study, gait data during self-paced walking on an instrumented treadmill from 20 persons with MS and 20 age, weight, height, and gender-matched healthy older adults (HOA) were obtained. We explored two strategies to normalize data and minimize dependence on subject demographics; size-normalization (standard body size-based normalization) and regress-normalization (regression-based normalization using scaling factors derived by regressing gait features on multiple subject demographics); and proposed an ML based methodology to classify individual strides of older persons with MS (PwMS) from healthy controls. We generalized both across different walking tasks and subjects. RESULTS: We observed that regress-normalization improved the accuracy of identifying pathological gait using ML when compared to size-normalization. When generalizing from comfortable walking to walking while talking, gradient boosting machine achieved the optimal subject classification accuracy and AUC of 94.3 and 1.0, respectively and for subject generalization, a multilayer perceptron resulted in the best accuracy and AUC of 80% and 0.86, respectively, both with regression-normalized data. CONCLUSION: The integration of gait data and ML may provide a viable patient-centric approach to aid clinicians in monitoring MS. SIGNIFICANCE: The results of this study have future implications for the way regression normalized gait features may be clinically used to design ML-based disease prediction strategies and monitor disease progression in PwMS.

Topics & Concepts

Artificial intelligenceNormalization (sociology)Machine learningTreadmillGait analysisPreferred walking speedComputer scienceArtificial neural networkGaitPhysical medicine and rehabilitationPattern recognition (psychology)Physical therapyMedicineSociologyAnthropologyBalance, Gait, and Falls PreventionMultiple Sclerosis Research StudiesGait Recognition and Analysis
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