Wearable sensors are promising tools for fast clinical gait evaluations in individuals with osteoarthritis (OA) of the knee and hip. However, gait assessments with wearable sensor are often limited to relatively simple straight-ahead walking paradigms. Parameters reflecting more complex and relevant aspects of gait, including dual-tasking, turning, and compensatory upper body motion are often overlooked in literature. The aim of this study was to investigate turning, dual-task performance, and upper body motion in individuals with knee or hip OA in addition to spatiotemporal gait parameters, taking shared covariance between gait parameters into account. Gait was compared between individuals with unilateral knee (n=25) or hip (n=26) OA scheduled for joint replacement, and healthy controls (n=27). For 2 minutes, subjects walked back-and-forth a 6 meter trajectory making 180 degree turns, with and without a secondary cognitive task. Gait parameters were collected using four inertial measurement units on feet, waist, and trunk. To test if turning, dual-tasking, and upper body motion had added value above common spatiotemporal parameters, a factor analysis was conducted. Standardized mean differences were computed for the comparison between knee or hip OA and healthy controls. One gait parameter was selected per gait domain based on factor loading and effect size for the comparison between OA groups and healthy controls.Introduction
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