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Gait Characteristics Harvested during a Smartphone-Based Self-Administered 2-Minute Walk Test in People with Multiple Sclerosis: Test-Retest Reliability and Minimum Detectable Change

Alan Bourke, Alf Scotland, Florian Lipsmeier, Christian Gossens, Michael Lindemann

2020Sensors40 citationsDOIOpen Access PDF

Abstract

The measurement of gait characteristics during a self-administered 2-minute walk test (2MWT), in persons with multiple sclerosis (PwMS), using a single body-worn device, has the potential to provide high-density longitudinal information on disease progression, beyond what is currently measured in the clinician-administered 2MWT. The purpose of this study is to determine the test-retest reliability, standard error of measurement (SEM) and minimum detectable change (MDC) of features calculated on gait characteristics, harvested during a self-administered 2MWT in a home environment, in 51 PwMS and 11 healthy control (HC) subjects over 24 weeks, using a single waist-worn inertial sensor-based smartphone. Excellent, or good to excellent test-retest reliability were observed in 58 of the 92 temporal, spatial and spatiotemporal gait features in PwMS. However, these were less reliable for HCs. Low SEM% and MDC% values were observed for most of the distribution measures for all gait characteristics for PwMS and HCs. This study demonstrates the inter-session test-retest reliability and provides an indication of clinically important change estimates, for interpreting the outcomes of gait characteristics measured using a body-worn smartphone, during a self-administered 2MWT. This system thus provides a reliable measure of gait characteristics in PwMS, supporting its application for the longitudinal assessment of gait deficits in this population.

Topics & Concepts

GaitPhysical medicine and rehabilitationReliability (semiconductor)Test (biology)WaistGait analysisPhysical therapyGold standard (test)Inertial measurement unitMedicinePopulationPsychologyComputer scienceBody mass indexArtificial intelligenceEnvironmental healthPaleontologyInternal medicinePathologyBiologyQuantum mechanicsPhysicsPower (physics)Multiple Sclerosis Research StudiesHearing Loss and RehabilitationMillimeter-Wave Propagation and Modeling