Effects of Virtual Reality–Assisted and Overground Gait Adaptation Training on Balance and Walking Ability in Stroke Patients
Xinyuan Wang, J Y Qiu, Yuda Zhou, Wenbing Liu, Shuijing Zhang, Yichen Gong, Wei Jiang, Linjie Fang, Changmeng Ji, Xin Yao, Weiqiang Wang, Sihui Xu, Zhouzhou Lu, Yong Ding
Abstract
OBJECTIVE: This study compared the effects of virtual reality-assisted gait adaptation training with the overground gait adaptation training on balance and walking in patients with stroke. METHODS: Fifty-four eligible patients were enrolled. All patients were randomly divided into a virtual reality and control group, with 27 patients in each group. The virtual reality group received virtual reality-assisted training on the treadmill, whereas the control group received overground training in a physical therapy room. After the intervention, patients were assessed using walking speed, obstacle avoidance ability, Timed Up and Go test, postural stability, and the Barthel Index. RESULTS: Significant improvements in walking speed, obstacle avoidance ability, Timed Up and Go test, and eye-opening center of pressure speed were observed after the intervention ( P < 0.05). No statistically significant differences were found in eye-closing center of pressure speed, tandem center of pressure speed, single-leg center of pressure speed, and Barthel Index ( P > 0.05). CONCLUSIONS: Stroke patients may benefit from virtual reality-assisted gait adaptation training in improving walking and static balance function and reducing the risk of falls.