Virtual Reality-Enhanced Partial Body Weight-Supported Treadmill Training Poststroke: Feasibility and Effectiveness in 6 Subjects |
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Authors: | Martha L Walker Stacie I Ringleb George C Maihafer Robert Walker Jessica R Crouch Bonnie Van Lunen Steven Morrison |
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Institution: | a School of Physical Therapy, Old Dominion University, Norfolk, VA b Department of Mechanical Engineering, Old Dominion University, Norfolk, VA c Department of Computer Science, Old Dominion University, Norfolk, VA d Department of Exercise Science, Physical Education and Recreation, Old Dominion University, Norfolk, VA e Department of Physical Medicine and Rehabilitation, Eastern Virginia Medical School, Norfolk, VA |
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Abstract: | Walker ML, Ringleb SI, Maihafer GC, Walker R, Crouch JR, Van Lunen B, Morrison S. Virtual reality-enhanced partial body weight-supported treadmill training poststroke: feasibility and effectiveness in 6 subjects.ObjectiveTo determine whether the use of a low-cost virtual reality (VR) system used in conjunction with partial body weight-supported treadmill training (BWSTT) was feasible and effective in improving the walking and balance abilities of patients poststroke.DesignA before-after comparison of a single group with BWSTT intervention.SettingUniversity research laboratory.ParticipantsA convenience sample of 7 adults who were within 1 year poststroke and who had completed traditional rehabilitation but still exhibited gait deficits. Six participants completed the study.InterventionTwelve treatment sessions of BWSTT with VR. The VR system generated a virtual environment that showed on a television screen in front of the treadmill to give participants the sensation of walking down a city street. A head-mounted position sensor provided postural feedback.Main Outcome MeasuresFunctional Gait Assessment (FGA) score, Berg Balance Scale (BBS) score, and overground walking speed.ResultsOne subject dropped out of the study. All other participants made significant improvements in their ability to walk. FGA scores increased from mean of 13.8 to 18. BBS scores increased from mean of 43.8 to 48.8, although a ceiling effect was seen for this test. Overground walking speed increased from mean of .49m/s to .68m/s.ConclusionsA low-cost VR system combined with BWSTT is feasible for improved gait and balance of patients poststroke. |
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Keywords: | Gait Rehabilitation Stroke |
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