Abstract
Hemiplegic stroke often impairs gait and increases falls risk during rehabilitation. Tripping is the leading cause of falls, but the risk can be reduced by increasing vertical swing foot clearance, particularly at the mid-swing phase event, minimum foot clearance (MFC). Based on previous reports, real-time biofeedback training may increase MFC. Six post-stroke individuals undertook eight biofeedback training sessions over a month, in which an infrared marker attached to the front part of the shoe was tracked in real-time, showing vertical swing foot motion on a monitor installed in front of the subject during treadmill walking. A target increased MFC range was determined, and participants were instructed to control their MFC within the safe range. Gait assessment was conducted three times: Baseline, Post-training and one month from the final biofeedback training session. In addition to MFC, step length, step width, double support time and foot contact angle were measured. After biofeedback training, increased MFC with a trend of reduced step-to-step variability was observed. Correlation analysis revealed that MFC height of the unaffected limb had interlinks with step length and ankle angle. In contrast, for the affected limb, step width variability and MFC height were positively correlated. The current pilot-study suggested that biofeedback gait training may reduce tripping falls for post-stroke individuals.
Highlights
Stroke is a major health risk, among the aged population and, for example, more than 100 cases are reported daily in Australia [1]
The risk of falling is 150% higher in people with chronic stroke compared with age- and gender-matched controls [4]
The aim of the current study was to confirm the feasibility of minimum foot clearance (MFC) biofeedback training for post-stroke individuals and evaluate the practicality, safety and appropriateness of the training procedure
Summary
Stroke is a major health risk, among the aged population and, for example, more than 100 cases are reported daily in Australia [1]. Gait impairment is commonly associated with a stroke, but physical rehabilitation interventions can increase lower limb muscle strength and assist in re-establishing sensory-motor pathways [2]. In addition to improving balance and mobility in day-to-day activities, gait training may be very important in reducing the risk of falling following in-patient rehabilitation [3]. Approximately 50% of people living at home after a stroke will fall within 12 months [5], with up to half of these having multiple falls. It is, critically important to develop interventions to increase mobility and
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