Wykorzystanie rzeczywistości wirtualnej do rehabilitacji kończyn górnych

• Autorzy: Budziszewski P.

Warianty tytułu

EN

Virtual reality in rehabilitation of upper limbs

• Konferencja: XV Międzynarodowa Szkoła Komputerowego Wspomagania Projektowania, Wytwarzania i Eksploatacji, Jurata, 09-13 maja 2011 r.
• Języki publikacji: PL

Abstrakty

PL

W artykule przedstawiono założenia projektu, którego celem jest opracowanie systemu wspomagającego rehabilitację kończyn górnych opartego na technice rzeczywistości wirtualnej. Dokonany przegląd literatury wskazał na zapotrzebowanie na mobilne systemy umożliwiające prowadzenie rehabilitacji zarówno w szpitalu, ośrodku rehabilitacji, jak i w domu pacjenta. W trakcie realizacji projektu opracowany zostanie możliwie niedrogi system wspomagający prowadzenie rehabilitacji, który będzie oferował interfejs użytkownika w postaci atrakcyjnej formy gry komputerowej.

EN

This paper describes project aimed at designing a system for rehabilitation of upper limbs assistance with virtual reality. Literature review showed, there is a demand for mobile systems for upper limbs rehabilitation which could be used in hospitals as well as in patients’ houses. In the project there will be developed possibly inexpensive rehabilitation system with a user interface if a form of a computer game.

Słowa kluczowe

PL

rzeczywistość wirtualna; rehabilitacja; kończyna górna

EN

virtual reality; rehabilitation; upper limb

• Wydawca: Stowarzyszenie Inżynierów i Techników Mechaników Polskich
• Czasopismo: Mechanik
• Rocznik: 2011
• Tom: R. 84, nr 7(CD)
• Strony: 65--72
• Opis fizyczny: Bibliogr. 24 poz., rys.

Twórcy

autor

Budziszewski P.

• Centralny Instytut Ochrony Pracy – Państwowy Instytut Badawczy

Bibliografia

• [1] Budziszewski P., Grabowski A., Tokarski T., Dzwiarek M., Kurkus-Rozowska B., Jankowski J.: Designing a workplace for workers with motion disability with a computer simulation and virtual reality techniques, Proceedings 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P M 2010.
• [2] van der Lee J.H., Snels I. A., Beckerman H., Lankhorst G.J., Wagenaar R.C., Bouter L.M.: Exercise therapy for arm function in stroke patients: a systematic review of randomized controlled trials, Clinical Rehabilitation, 15, 1, 2001, pp. 20-31.
• [3] Bassett S.F.: The Assessment of Patient Adherence to Physiotherapy Rehabilitation, New Zealand Journal of Physiotherapy, 31(2), 2003, pp. 60-66.
• [4] Engström L.O., Öberg B.: Patient adherence in an individualized rehabilitation programme: A clinical follow-up, Scandinavian Journal of Public Health, 33, 2005, pp. 11-18.
• [5] Maclean N., Pound P., Wolfe C., Rudd A.: Qualitative analysis of stroke patients’ motivation for rehabilitation, British Medical Journal, 321: 1051-4, 2000.
• [6] Butterworth S.W.: Influencing Patient Adherence to Treatment Guidelines, Journal of Managed Care Pharmacy, 14(6) (suppl S-b), 2008, pp. 21-25.
• [7] Broeren J., Pareto L., Johansson B., Ljungberg C., Rydmark M.: Stroke rehabilitation using m-Health Care and 3D virtual environments – work in progress, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Viña del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 115-122.
• [8] Standen P.J., Brown D.J., Battersby S., Walker M., Connell L., Richardson A.: Study to evaluate a low cost virtual reality system for home based rehabilitation of the upper limb following stroke, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Vina del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 139-146.
• [9] Cikajlo I., Rudolf M., Goljar N., Matjacic Z.: Continuation of balance training for stroke subjects in home environment using virtual reality, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Vina del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 235-240.
• [10] Rizzo A.A., Strickland D., Bouchard S.: The Challenge of Using Virtual Reality in Telerehabilitation, Telemedicine Journal and e-Health, Vol. 10, Nr 2, 2004.
• [11] Ma M., McNeill M., Charles D., McDonough S., Crosbie J., Oliver L., McGoldrick C.: Adaptive Virtual Reality Games for Rehabilitation of Motor Disorders, in: C. Stephanidis (Ed.): Universal Access in HCI, Part II, HCII 2007, LNCS 4555, 2007, pp. 681-690.
• [12] Flynn S.M., Lange B.S.: Games for rehabilitation: the voice of the players, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Vina del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 185-194.
• [13] Burke J.W., McNeill M.D., Charles D.K., Morrow P.J., Crosbie J.H., McDonough S.M.: Designing engaging, playable games for rehabilitation, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Vina del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 195-201.
• [14] Linden: Evaluating the Effectiveness of Home Health as a Disease Management Strategy, Home Health Care Management & Practice, 18, 3, 2006, pp. 216-222.
• [15] Holden M.K.: Virtual Environments for Motor Rehabilitation: Review, Cyber Psychology & Behavior, Vol. 8, Nr 3, 2005.
• [16] Fidopiastis C.M., Rizzo A.A., Rolland J.P.: Centered virtual environment design for virtual rehabilitation, Journal of NeuroEngineering and Rehabilitation, February 2010, (7:11), 2010.
• [17] Knaut L.A., Subramanian S.K., McFadyen B.J., Bourbonnais D., Levin M.F.: Kinematics of Pointing Movements Made in a Virtual Versus a Physical 3-Dimensional Environment in Healthy and Stroke Subjects, Arch. Phys. Med. Rehabil., Vol. 90, May 2009.
• [18] Viau A., Feldman A.G., McFadyen B.J., Levin M.F.: Reaching in reality and virtual reality: a comparison of movement kinematics in healthy subjects and in adults with hemiparesis, Journal of NeuroEngineering and Rehabilitation, 1:11, 2004.
• [19] Merians A.S., Fluet G.G., Qiu Q., Saleh S., Lafond I., Adamovich S.V.: Integrated arm and hand training using adaptive robotics and virtual reality simulations, Proc. 8th Intl Conf. on Disability, Virtual Reality and Assoc. Technologies, P.M. Sharkey, J. Sánchez (ed.), Vina del Mar/Valparaíso, Chile, 31 Aug.-2 Sept. 2010, pp. 131-138.
• [20] Klimasara W.J., Bratek A., Pilat Z., Stempniak P.: Systemy mechatroniczne w rehabilita-cji ruchowej, Konferencja Naukowo-Techniczna AUTOMATION 2009.
• [21] Volpe B.T., Krebs H.I., Hogan N., Edelstein L., Diels C., Aisen M.: A novel approach to stroke rehabilitation, Neurology 2000, 54, pp. 1938-1944.
• [22] Staubli P., Nef T., Klamroth-Marganska V., Riener R.: Effects of intensive arm training with the rehabilitation robot ARMin II in chronic stroke patients: four single-cases, Jour. Neuroeng Rehabil. 2009 Dec 17; 6:46.
• [23] Susman E.: Can a Robot Help in Rehabilitation for Stroke Patients?, News From The International Stroke Conference, Neurology Today, April 15, 2010.
• [24] Parsons T.D., Rizzo A.A.: Affective outcomes of virtual reality exposure therapy for anxiety and specific phobias: A meta-analysis, Journal of Behavior Therapy and Experimental Psychiatry 39, 2008, pp. 250-261.