Advanced search
Publication Cover
International Journal of Neuroscience Volume 126, 2016 - Issue 12
Submit an article Journal homepage
1,719
Views
33
CrossRef citations to date
0
Altmetric
Original Article

The effects of Nintendo WiiTM-based balance and upper extremity training on activities of daily living and quality of life in patients with sub-acute stroke: a randomized controlled study

Tülay Tarsuslu ŞimşekSchool of Physical Therapy and Rehabilitation, Dokuz Eylül University, İzmir, TurkeyCorrespondence[email protected] [email protected]
&
Kübra ÇekokDepartment of Physical Therapy and Rehabilitation, Medicalpark Izmir Hospital, İzmir, Turkey
Pages 1061-1070 | Received 28 Jul 2015, Accepted 31 Oct 2015, Published online: 01 Dec 2015

References

  • Mayo N, Wood-Dauphinee S, Ahmed S, et al. Disablement following stroke. Disabil Rehabil 1999;2:258–68.
  • Mouawad MR, Doust CG, Max MD, et al. Wii-based movement therapy to promote improved upper extremity function post-stroke: a pilot study. J Rehabil Med 2011;43(6):527–33.
  • Pietrzak E, Cotea C,, Pullman S. Using commercial video games for upper limb stroke rehabilitation: is this the way of the future? Top Stroke Rehabil 2014;21(2):152–62.
  • Huang PC, Hsieh YW, Wang CM, et al. Predictors of motor, daily function, and quality-of-life improvements after upper-extremity robot-assisted rehabilitation in stroke. Am J Occup Ther 2014;68(3):325–33.
  • Krakauer JW. Motor learning: its relevance to stroke recovery and neurorehabilitation. Curr Opin Neurol 2006;19:84–90.
  • Zhang L, Abreu BC, Seale GS, et al. A virtual reality environment for evaluation of a daily living skill in brain injury rehabilitation: reliability and validity. Arch Phys Med Rehabil 2003;84:1118–24.
  • Studenski S, Duncan PW, Perera S, et al. Daily functioning and quality of life in a randomized controlled trial of therapeutic exercise for subacute stroke survivors. Stroke 2005;36(8):1764–70.
  • Richards C, Malouin F, Nadeau S. Stroke rehabilitation: clinical picture, assessment, and therapeutic challenge. Prog Brain Res 2015;218:253–80.
  • Luker J, Lynch E, Bernhardsson S, et al. Stroke survivors' experiences of physical rehabilitation: a systematic review of qualitative studies. Arch Phys Med Rehabil 2015;96(9):1698–708.
  • Laver K, George S, Deutsch JE, et al. Cochrane review: virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med 2012;48:523–30.
  • Barcala L, Collange Grecco LA, Colella F, et al. Visual biofeedback balance training using Wii Fit after stroke: a randomized controlled trial. J Phys Ther Sci 2013;25:1027–32.
  • Anderson F, Annett M, Bischof WF. Lean on Wii: physical rehabilitation with virtual reality Wii peripherals. Stud Health Technol Inform 2010;154:229–34.
  • Pompeu JE, dos Santos Mendes FA, da silva KG, et al. Effect of Nintendo Wii-based motor and cognitive training on activities of daily living in patients with Parkinson's disease: a randomised clinical trial. Physiotherapy 2012;98:196–204.
  • Choi JH, Han EY, Kim BR, et al. Effectiveness of commercial gaming-based virtual reality movement therapy on functional recovery of upper extremity in subacute stroke patients. Ann Rehabil Med 2014;38:485–93.
  • Paquin K, Ali S, Carr K, et al. Effectiveness of commercial video gaming on fine motor control in chronic stroke within community-level rehabilitation. Disabil Rehabil 2015;26:1–8.
  • Morone G, Tramontano M, Iosa M, et al. The efficiacy of balance training with video game-based therapy in subacute patients: a randomized controlled trial. BioMed Res Inter 2014;580861.
  • da Silva Ribeiro NM, Feraz DD, Pedreira E, et al. Virtual rehabilitation via Nintendo Wii and conventional physical therapy effectively treat post-stroke hemiparetic patients. Top Stroke Rehabil 2015;22(4):299–305.
  • Bower KJ, Clark RA, McGinley JL, et al. Clinical feasibility of the Nintendo Wii for balance training posstroke: a phase II randomized controlled trial in an inpatient setting. Clin Rehabil 2014;28(9):912–23.
  • Hung J-W, Chou C-X, Hsieh Y-W, et al. Randomized comparison trial of balance training by using exargaming and conventional weight-shift therapy in patients with chronic stroke. Arc Phys Med Rehabil 2014;95:1629–37.
  • Joo LY, Yin TS, Xu D, et al. A feasibility study using interactive commercial off-the-shelf computer gaming in upper limb rehabilitation in patients after stroke. J Rehabil Med 2010;42(5):437–41.
  • Laver KE, George S, Thomas S, et al. Virtual reality for stroke rehabilitation. Cochrane Database Syst Rev 2015;12;2:CD008349.
  • Corbetta D, Imeri F, Gatti R. Rehabilitation that incorporates virtual reality is more effective than standard rehabilitation for improving walking speed, balance and mobility after stroke: a systematic review. J Physiother 2015;61:117–24.
  • Bower KJ, Clark RA, McGinley JL, et al. Clinical feasibility of the Nintendo Wii for balance training post-stroke: a phase II randomized controlled trial in an inpatient setting. Clin Rehabil 2014;28(9):912–23.
  • Cheok G, Tan D, Low A, et al. Is Nintendo Wii an effective intervention for individuals with stroke? a systematic review and meta-analysis. J Am Med Dir Assoc 2015;1(16):923–32.
  • Küçükdeveci AA, Yavuzer G, Elhan AH, et al. Adaptation of the functional independence measure for use in Turkey. Clin Rehabil 2001;15:311–19.
  • Küçükdeveci AA, McKenna SP, Kutlay S. The development and psychometric assessment of the Turkish version of the Nottingham Health Profile. Int J Rehabil Res 2000;23:31–8.
  • Tarsuslu T, Bol H, Simşek IE, et al. The effects of osteopathic treatment on constipation in children with cerebral palsy: a pilot study. J Manipulative Physiol Ther 2009;32(8):648–53.
  • Bovolenta F, Goldoni M, Clerici P, et al. Robot therapy for functional recovery of the upper limbs: a pilot study on patients after stroke. J Rehabil Med 2009;41(12):971–5.
  • Shek SYN, Yeung CK, Chan JCY, et al. The eficiacy of a combination non-thermal focused ultrasound and radiofrequency device for noninvasive body contouring in Asians. Lasers Surg Med 2015;9. doi: 10.1002/lsm.22406.
  • Hsieh C-L, Sheu C-F, Hsueh I-P, et al. Trunk control as an early predictor of comprehensive activities of daily living function in stroke patients. Stroke 2002;33:2626–30.
  • Johansson A, Mishina E, Ivanov A, et al. Activities of daily living among St Petersburg women after mild stroke. Occup Ther Int 2007;14(3):170–82.
  • Combs SA, Finley MA, Henss M, et al. Effects of a repetitive gaming intervention on upper extremity impairments and function in persons with chronic stroke: a preliminary study. Disabil Rehabil 2012;34(15):1291–8.
  • Lucca LF. Virtual reality and motor rehabilitation of the upper limb after stroke: a generation of progress? J Rehabil Med 2009;41:1003–100.
  • Pietrzak E, Cotea C, Pullman S. Using commercial video games for upper limb stroke rehabilitation: is this the way of the future? Top Stroke Rehabil 2014;21(2):152–62.
  • Lee G-C. Effects of training using video games on the muscle strength, muscle tone, and activities of daily living of chronic stroke patients. J Phys Ther Sci 2013;25:595–97.
  • Laver K, George S, Thomas S, et al. Cochrane review: Virtual reality for stroke rehabilitation. Eur J Phys Rehabil Med 2012;48(3):523–30.
  • Piron L, Turolla A, Agostini M, et al. Motor learning principles for rehabilitation: a pilot randomized controlled study in poststroke patients. Neurorehabil Neural Repair 2010;24:501–8.
  • Saposnik G, Levin M. Outcome Research Canada (SORCan) Working Group. Virtual reality in stroke rehabilitation: a meta-analysis and implications for clinicians. Stroke 2011;42(5):1380–6.
  • Cho KH, Lee KJ, Song CH. Virtual-reality balance training with a video-game system improves dynamic balance in chronic stroke patients. Tohoku J Exp Med 2012;228:69–74.
  • McEwen D, Taillon-Hobson A, Bilodeau M, et al. Virtual reality exercise improves mobility after stroke: an inpatient randomized controlled trial. Stroke 2014;45(6):1853–5.
  • Cheng PT, Wang CM, Chung CY, et al. Effects of visual feedback rhythmic weight-shift training on hemiplegic stroke patients. Clin Rehabil 2004;18(7):747–53.
  • Mouawad MR, Doust CG, Max MD, et al. Wii-based movement therapy to promote improved upper extremity function post-stroke: a pilot study. J Rehabil Med 2011;43:527–33.
  • Sheffler LR, Knutson JS, Gunzler D, et al. Relationship between body mass index and rehabilitation outcomes in chronic stroke. Am J Phys Med Rehabil 2012;91(11):951–6.
  • Schuck SO, Whetstone A, Hill V, et al. Game-based portable, upper extremity rehabilitation in chronic stroke. Top Stroke Rehabil 2011;18(6):720–7.
  • Shin J-H, Park SB, Jang SH. Effects of game-based virtual reality on health-related quality of life in chronic stroke patients: a randomized, controlled study. Comp Biol Med 2015;63:92–8.
  • Langhammer B, Stanghelle JK. Bobath or motor relearning programme? a follow up one and four years post stroke. Clin Rehabil 2003;1:731–4.
  • da Silva Cameirao M, Bermudez I, Badia S, et al. Virtual reality based rehabilitation speeds up functional recovery of the upper extremities after stroke: a randomized controlled pilot study in the acute phase of stroke using the rehabilitation gaming system. Restor Neurol Neurosci 2011;29(5):287–98.
  • Piron L, Turolla A, Tonin P, et al. Satisfaction with care in post-stroke patients undergoing a telerehabilitation programme at home. J Telemed Telecare 2008;14(5):257–60.
  • Hart P, Bierwirth R, Fulk G, et al. The design and evaluation of an activity monitoring user interface for people with stroke. Conf Proc IEEE Eng Med Biol Soc 2014;2014:5908–11.
  • Cohen LG, Bayley M. Stroke Outcome Research Canada (SORCan) Working Group. Effectiveness of virtual reality using Wii gaming technology in stroke rehabilitation: a pilot randomized clinical trial and proof of principle. Stroke 2010;41(7):1477–84.
  • Kwakkel G. Impact of intensity of practice after stroke: issues for consideration. Disabil Rehabil 2006;28:823–30.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.