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Related Experiment Video

Updated: Jul 17, 2026

A Rehabilitation Program of Exoskeleton-assisted Body Weight-Supported Treadmill Training with Non-immersive Virtual Reality for Stroke Patients
06:00

A Rehabilitation Program of Exoskeleton-assisted Body Weight-Supported Treadmill Training with Non-immersive Virtual Reality for Stroke Patients

Published on: May 16, 2025

Locomotor rehabilitation in a complex virtual environment.

J Fung1, F Malouin, B J McFadyen

  • 1Jewish Rehabilitation Hospital, McGill University, Montreal, Quebec, Canada.

Conference Proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual Conference
|February 3, 2007
PubMed
Summary

Virtual reality (VR) offers a safe method for locomotor training. This study developed a VR system to enhance gait rehabilitation for stroke patients, showing promising results in improving walking capacity.

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Last Updated: Jul 17, 2026

A Rehabilitation Program of Exoskeleton-assisted Body Weight-Supported Treadmill Training with Non-immersive Virtual Reality for Stroke Patients
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Cognitive Function and Upper Limb Rehabilitation Training Post-Stroke Using a Digital Occupational Training System

Published on: December 29, 2023

Mobile Game-based Virtual Reality Program for Upper Extremity Stroke Rehabilitation
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Mobile Game-based Virtual Reality Program for Upper Extremity Stroke Rehabilitation

Published on: March 8, 2018

Area of Science:

  • Rehabilitation Engineering
  • Neuroscience
  • Virtual Reality Applications

Background:

  • Locomotor training is crucial for recovery after stroke.
  • Traditional methods often lack varied environments and sufficient practice.
  • Virtual reality (VR) presents a novel approach to enhance training safety and efficacy.

Purpose of the Study:

  • To develop a virtual environment (VE) integrated with a self-paced treadmill for locomotor training.
  • To compare gait parameters across different VE scenarios.
  • To create an optimized training protocol for post-stroke locomotor disorders.

Main Methods:

  • A motorized treadmill was mounted on a six-degree-of-freedom motion platform.
  • Virtual environments were created using commercial software and projected on a large screen.
  • System control and servo-control of treadmill speed and scene progression were managed via CAREN software.

Main Results:

  • Healthy subjects demonstrated control over walking speed and immersion in the VE.
  • A street crossing training protocol was successfully developed.
  • Preliminary data suggest VR can enhance presence and control during gait training.

Conclusions:

  • The developed VR-treadmill system provides a safe and controlled environment for locomotor training.
  • Progressively complex VEs are expected to improve locomotor capacity in stroke survivors.
  • This technology holds potential for personalized and effective gait rehabilitation.