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AFO Prescription to Optimize Post-Stroke Function
Sponsor: University of Texas at Austin
Summary
The overall goal of this study is to attain the highest possible health-related quality of life for individuals with lower-limb impairment through a clinical trial examining three different modern carbon fiber ankle-foot orthosis (AFO) treatment options targeting the rehabilitation of individuals post-stroke. To achieve this goal, the investigators will: 1. Identify the factors that significantly contribute to an individual's highest potential quality of life when considering each of the three available AFO design options, and 2. Develop prediction models of clinical performance using biomechanical function linked to the three AFO designs. Participants will be asked to: * Wear each of the three modern AFO designs for one month, after receiving therapy training and * Complete questionnaires and performance tests with each AFO. In addition, the subset of individuals participating in goal 2) will also be asked to: * Perform biomechanical analyses using high-speed cameras and force plates during different walking and balance tests with each AFO design.
Official title: The Development of Patient-Centered Clinical AFO Prescription Guidelines to Optimize Post-Stroke Function and Quality of Life
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
120
Start Date
2025-07-08
Completion Date
2027-10
Last Updated
2025-08-21
Healthy Volunteers
No
Interventions
Pre-fabricated (PF) ankle-foot orthosis (AFO)
These pre-manufactured orthoses are customized to fit each patient. These devices can help to distribute weight evenly along the foot, but do not offer much opportunity for adjustment to a patient's specific needs. These AFOs achieve ankle motion through material deflection and lack a single point of articulation.
Carbon-strut (CS) ankle-foot orthosis (AFO)
These AFO designs are built from a custom mold of the patient's affected limb for a more individualized fit. It includes a solid ankle design and achieves ankle motion through material deflection and lacks a single point of articulation.
Multifunctional articulating (MA) ankle-foot orthosis (AFO)
These AFO designs are also built from a custom mold of the patient's affected limb, but these orthoses have a true articulation at the ankle to provide controlled ankle movement in a range determined appropriate by the orthotist through gait analysis.
Locations (4)
Rancho Research Institute
Downey, California, United States
Brooks Rehabilitation
Jacksonville, Florida, United States
Medical University of South Carolina
Charleston, South Carolina, United States
Hanger Clinic
Houston, Texas, United States