Unsupervised gait retraining using a wireless pressure-detecting shoe insole

Unsupervised gait retraining using a wireless pressure-detecting shoe insole

•Subjects reduced knee adduction moment after gait retraining following feedback.•Gait modification cued by pressure-based auditory feedback reduced both KAM peaks.•Equipment allowed unsupervised gait retraining.•The wireless shoe insole is ready to be implemented in studies with OA subjects. The kn...

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Bibliographic Details
Published in:Gait & posture Vol. 70; pp. 408 - 413
Main Authors: He, Jade, Lippmann, Kevin, Shakoor, Najia, Ferrigno, Christopher, Wimmer, Markus A.
Format: Journal Article
Language:English
Published: England Elsevier B.V 01-05-2019
Subjects:
Feedback
Gait modification
Knee adduction moment
Osteoarthritis
Wireless sensor insole
Knee adduction moment
Gait modification
Feedback
Osteoarthritis
Wireless sensor insole
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Summary:•Subjects reduced knee adduction moment after gait retraining following feedback.•Gait modification cued by pressure-based auditory feedback reduced both KAM peaks.•Equipment allowed unsupervised gait retraining.•The wireless shoe insole is ready to be implemented in studies with OA subjects. The knee adduction moment (KAM) is a surrogate measure of mediolateral distribution of loads across the knee joint and is correlated with progression and severity of knee osteoarthritis (OA). Existing biomechanical approaches for unloading the arthritic medial knee compartment vary in their effectiveness in reducing KAM. This study employed a completely wireless, pressure-detecting shoe insole capable of generating auditory feedback via a smartphone. Research question: To investigate whether auditory cues from a smartphone can prompt subjects to adjust their gait pattern and reduce KAM. Methods: Nineteen healthy subjects underwent gait training inside the lab (Phase 1) and received auditory cues during mid- and terminal stance to medialize their foot COP (center-of-pressure). This initial training period was continued unsupervised while walking around campus (Phase 2). After Phase 1, subjects reduced their KAM by 20.6% (p =  0. 001), a finding similar to a previous study that used a wired, lab-based insole system. After further unsupervised training outside the lab during Phase 2, subjects were able to execute the newly learned gait pattern without auditory feedback still showing a KAM reduction of 17.2% (p <  0.001). Although, speed at Phase 2 was lower than at baseline (p =  0.013), this reduction had little effect on KAM (r = 0.297, p =  0.216). In addition, the adduction angular impulse was reduced (p =  0.001), despite the slower speed. Together, these results suggest that the wireless insole is a promising tool for gait retraining to lower the KAM and will be implemented in a home-based clinical trial of gait retraining for subjects with knee OA.
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ISSN:0966-6362
1879-2219
DOI:10.1016/j.gaitpost.2019.03.021