Optimizing Gait Symmetry After Stroke Using Mechanical Constraints and Sensory Feedback

Description

The purpose of this study is to assess the effectiveness of an integrated gait training paradigm that combines mechanical task constraints and sensory feedback during split-belt treadmill walking to enhance paretic leg propulsion and improve propulsion symmetry in individuals post-stroke. The risks associated with this study are lower than those encountered during daily walking in the community and in typical physical therapy clinics, where patients with physical impairments routinely engage in challenging exercises to improve their abilities. There is a slight possibility of local skin irritation or rash resulting from the non-allergenic adhesive tape or sensor gel used to attach the EMG sensors. This is a rare occurrence and typically resolves within one to two days without medical intervention.

This study will last approximately one to two hours, depending on your condition, and involves a one-time visit.

If you choose to participate in this study, the participant will be asked to:

1. Sign a consent form approved by the University of Texas Medical Branch IRB, outlining the study’s purpose, procedures, benefits, risks, and policies.
2. Share medical history and well-being, and have weight, height, and heart rate (via smartwatch) monitored.
3. Assess your walking capacity.
4. Assess the Optimal Gait Training Protocol using Treadmill, Sensory Feedback, and Mechanical task constraints.