PURPOSE: To evaluate the effectiveness of the Nintendo Wii compared to traditional balance therapy in improving balance, motivation, and functional ability in children undergoing acute rehabilitation after brain injury. METHODS: A non-concurrent, randomized multiple baseline single-subject research design was used with three participants. Data were analyzed by visual inspection of trend lines. RESULTS:Daily Wii balance training was equally motivating to traditional balance therapy for two participants and more motivating for one participant. While improvements in dynamic balance were observed, the results for static balance remain inconclusive. All participants demonstrated improvements in functional ability. CONCLUSION:Wii balance therapy is a safe, feasible, and motivating intervention for children undergoing acute rehabilitation after an acquired brain injury. Further research to examine the effectiveness of Wii balance therapy in this population is warranted.
RCT Entities:
PURPOSE: To evaluate the effectiveness of the Nintendo Wii compared to traditional balance therapy in improving balance, motivation, and functional ability in children undergoing acute rehabilitation after brain injury. METHODS: A non-concurrent, randomized multiple baseline single-subject research design was used with three participants. Data were analyzed by visual inspection of trend lines. RESULTS: Daily Wii balance training was equally motivating to traditional balance therapy for two participants and more motivating for one participant. While improvements in dynamic balance were observed, the results for static balance remain inconclusive. All participants demonstrated improvements in functional ability. CONCLUSION: Wii balance therapy is a safe, feasible, and motivating intervention for children undergoing acute rehabilitation after an acquired brain injury. Further research to examine the effectiveness of Wii balance therapy in this population is warranted.
Authors: Shari L Wade; Megan E Narad; Emily L Shultz; Brad G Kurowski; Aimee E Miley; Jessica M Aguilar; Anna-Lynne R Adlam Journal: J Neurosurg Sci Date: 2017-11-20 Impact factor: 2.279
Authors: Roslyn N Boyd; Emmah Baque; Adina Piovesana; Stephanie Ross; Jenny Ziviani; Leanne Sakzewski; Lee Barber; Owen Lloyd; Lynne McKinlay; Koa Whittingham; Anthony C Smith; Stephen Rose; Simona Fiori; Ross Cunnington; Robert Ware; Melinda Lewis; Tracy A Comans; Paul A Scuffham Journal: BMC Neurol Date: 2015-08-19 Impact factor: 2.474