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Perturbation Training for Fall-risk Reduction Among Stroke Survivors
Sponsor: University of Illinois at Chicago
Summary
The long-term objective of this research is to develop an efficacious training paradigm to enhance stroke survivors' defense mechanisms against falls and possibly reduce healthcare cost. The Centers for Disease Control and Prevention estimates the direct medical cost for fall related injuries to be $34 billion annually. Forty percent to 70% of community-dwelling stroke survivors experience detrimental falls each year and tend to have 1.5 to 4 times higher risk of hip fracture than their healthy counterparts; with only less than 40% of those individuals regaining independent mobility. Falls, thus not only affect activities of daily living but also reduce mobility, increase risk of second stroke and mortality. Despite potential financial and functional implications of falls in this population, health-care personnel are limited in their ability to develop and validate interventions to reduce fall-risk for them. Further emphasis is placed on locomotor training with focus on enhancing paretic limb function. The project design consists of a randomized controlled trial to examine the ability of chronic stroke survivors to acquire, generalize and retain adaptations to slip-perturbation training for not only mitigating fall risk but also improving walking function. It also explores translation of this paradigm to the sub-acute population. The paradigm is novel in that it targets contributions of the paretic vs. non-paretic limbs on fall-risk through a bilateral training paradigm that involves training the non-paretic side first and then paretic to facilitate acquisition of fall-prevention skills on the paretic side, which may otherwise take longer to acquire training effects. The longer-term benefits of such perturbation training, targeting both limbs for reducing falls will be assessed not only in the laboratory but also in real life via wearable sensors, along with improved community walking function. The hypothesis of this study if supported by the results will provide an evidence-supported training protocol to reduce the fall-risk not only in people living with hemiparetic stroke but also among survivors of other acquired unilateral cortical lesions.
Official title: Perturbation Training for Enhancing Stability and Limb Support Control for Fall-risk Reduction Among Stroke Survivors
Key Details
Gender
All
Age Range
21 Years - Any
Study Type
INTERVENTIONAL
Enrollment
91
Start Date
2017-04-26
Completion Date
2026-03-15
Last Updated
2025-08-21
Healthy Volunteers
No
Conditions
Interventions
Overground slip perturbation training
Slips will be induced by a low-friction platform (65×30×0.6 cm, μ\<0.05) embedded side-by-side in the walking path, set nearly flush with the floor surround. The moveable platform, mounted on top of a pair of force platforms (AMTI, Newton, MA) for measuring ground reaction forces is firmly locked in a stationary position. An unannounced release occurs at heel strike of the perturbed, without the knowledge of subject, after which the platform is free to slide up to 150 cm. The mechanical release is controlled by the loading on the force platforms and the computer.
Locations (1)
University of Illinois at Chicago
Chicago, Illinois, United States