Sanal Gerçeklik Teknolojilerinin İnme Geçiren Hastaların Rehabilitasyonundaki Rolüne İlişkin Bir Literatür Taraması
Yıl 2020,
Cilt: 2 Sayı: 1, 42 - 49, 30.06.2020
Mithat Yavuzarslan
,
Denizhan Demirkol
,
Sevinç Gülseçen
Öz
Günümüzde sanal gerçeklik
teknolojileri rehabilitasyon gerektiren birçok hastalığın tedavisinde kullanılmaktadır.
Bu hastalıklardan birisi de milyonlarca insanın hayat kalitesini etkileyen ve
ciddi mortalite riskine sahip olan inmedir. Bu çalışma kapsamında sanal gerçeklik teknolojilerinin inme tanısına sahip yetişkin bireylerin tedavi ve
rehabilitasyonlarına dönük kullanımını temel alan ve son on yıl içerisinde yapılmış makalelere erişilmiştir. Tüm
çalışmalarda sanal gerçeklik teknolojileri geleneksel inme tedavisinin bir
alternatifi olarak kullanılmıştır. Sonuç olarak yapılan çalışmalarda sanal gerçeklik
teknolojilerinin inme geçiren hastaların rehabilitasyonunda kullanılmasının,
içerdiği oyunlaştırma yaklaşımını sayesinde güvenli, uygulanabilir ve etkili
bir potansiyele sahip bir araç olduğunu tespit edilmiştir.
Kaynakça
- [1] World Health Organization, “Stroke, Cerebrovascular accident”, Health Topics, 31-Oca-2015. .
- [2] Türk Nöroloji Derneği, “Dünya ve Türkiye İnme Verileri”, Türk Nöroloji Derneği, Eki. 2017.
- [3] Türkiye İstatistik Kurumu, “Ölüm Nedeni İstatistikleri, 2017”, www.tuik.gov.tr, Haber Bülteni 27620, Nis. 2018.
- [4] P. Langhorne, F. Coupar, ve A. Pollock, “Motor recovery after stroke: a systematic review”, Lancet Neurol., c. 8, sy 8, ss. 741-754, Ağu. 2009.
- [5] K. R. Lohse, C. G. E. Hilderman, K. L. Cheung, S. Tatla, ve H. F. M. Van der Loos, “Virtual Reality Therapy for Adults Post-Stroke: A Systematic Review and Meta-Analysis Exploring Virtual Environments and Commercial Games in Therapy”, PLoS ONE, c. 9, sy 3, s. e93318, Mar. 2014.
- [6] G. Saposnik, R. Teasell, M. Mamdani, J. Hall, W. McIlroy, D. Cheung, K. E. Thorpe, L. G. Cohen, M. Bayley. “Effectiveness of Virtual Reality Using Wii Gaming Technology in Stroke Rehabilitation: A Pilot Randomized Clinical Trial and Proof of Principle”, Stroke, c. 41, sy 7, ss. 1477-1484, Tem. 2010.
- [7] K. Laver, B. Lange, S. George, J. E. Deutsch, G. Saposnik, ve M. Crotty, “Virtual reality for stroke rehabilitation”, Cochrane Database Syst. Rev., sy 11, s. 110, 2017.
- [8] A. Turolla, M. Dam, L. Ventura, P. Tonin, M. Agostini, C. Zucconi, P. Kiper, A. Cagnin, L. Piron. “Virtual reality for the rehabilitation of the upper limb motor function after stroke: a prospective controlled trial”, J. NeuroEngineering Rehabil., c. 10, sy 1, s. 85, 2013.
- [9] G. Saposnik, L. G. Cohen, M. Mamdani, S. Pooyania, M. Plougman, D. Cheung, J. Shaw, J. Hall, P. Nord, S. Dukelow, Y. Nilanont, F. De los Rios, L. Olmos, M. Levin, R. Teasell, A. Cohen, K. Thorpe, A. Laupacis, M. Bayley. “Efficacy and safety of non-immersive virtual reality exercising in stroke rehabilitation (EVREST): a randomised, multicentre, single-blind, controlled trial”, Lancet Neurol., c. 15, sy 10, ss. 1019-1027, Eyl. 2016.
- [10] J. H. Kim, S. H. Jang, C. S. Kim, J. H. Jung, ve J. H. You, “Use of Virtual Reality to Enhance Balance and Ambulation in Chronic Stroke: A Double-Blind, Randomized Controlled Study”, Am. J. Phys. Med. Rehabil., c. 88, sy 9, s. 693, Eyl. 2009.
- [11] Y.-R. Yang, M.-P. Tsai, T.-Y. Chuang, W.-H. Sung, ve R.-Y. Wang, “Virtual reality-based training improves community ambulation in individuals with stroke: A randomized controlled trial”, Gait Posture, c. 28, sy 2, ss. 201-206, Ağu. 2008.
- [12] L. Connelly, Yicheng Jia, M. L. Toro, M. E. Stoykov, R. V. Kenyon, ve D. G. Kamper, “A Pneumatic Glove and Immersive Virtual Reality Environment for Hand Rehabilitative Training After Stroke”, IEEE Trans. Neural Syst. Rehabil. Eng., c. 18, sy 5, ss. 551-559, Eki. 2010.
- [13] A. Mirelman, P. Bonato, ve J. E. Deutsch, “Effects of Training With a Robot-Virtual Reality System Compared With a Robot Alone on the Gait of Individuals After Stroke”, Stroke, c. 40, sy 1, ss. 169-174, Oca. 2009.
- [14] S. C. da Cameiaro, B. i B. Sergi, D. Esther, ve V. P. F.M.J, “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., sy 5, ss. 287–298, 2011.
- [15] K. H. Cho, K. J. Lee, ve C. H. Song, “Virtual-Reality Balance Training with a Video-Game System Improves Dynamic Balance in Chronic Stroke Patients”, Tohoku J. Exp. Med., c. 228, sy 1, ss. 69-74, 2012.
- [16] G. Yavuzer, A. Senel, M. B. Atay, ve H. J. Stam, “”Playstation eyetoy games”improve upper extremity-related motor functioning in subacute stroke: a randomized controlled clinical trial.”, Eur. J. Phys. Rehabil. Med., c. 44, sy 3, ss. 237–244, 2008.
- [17] S. Yang, W.-H. Hwang, Y.-C. Tsai, F.-K. Liu, L.-F. Hsieh, ve J.-S. Chern, “Improving Balance Skills in Patients Who Had Stroke Through Virtual Reality Treadmill Training”:, Am. J. Phys. Med. Rehabil., c. 90, sy 12, ss. 969-978, Ara. 2011.
- [18] S. J. Housman, K. M. Scott, ve D. J. Reinkensmeyer, “A Randomized Controlled Trial of Gravity-Supported, Computer-Enhanced Arm Exercise for Individuals With Severe Hemiparesis”, Neurorehabil. Neural Repair, c. 23, sy 5, ss. 505-514, Haz. 2009.
- [19] E. K. Kim, J. H. Kang, J. S. Park, ve B. H. Jung, “Clinical Feasibility of Interactive Commercial Nintendo Gaming for Chronic Stroke Rehabilitation”, J. Phys. Ther. Sci., c. 24, sy 9, ss. 901-903, 2012.
- [20] H. Sin ve G. Lee, “Additional virtual reality training using Xbox Kinect in stroke survivors with hemiplegia”, Am. J. Phys. Med. Rehabil., c. 92, sy 10, ss. 871–880, 2013.
- [21] S. K. Subramanian, C. B. Lourenço, G. Chilingaryan, H. Sveistrup, ve M. F. Levin, “Arm Motor Recovery Using a Virtual Reality Intervention in Chronic Stroke: Randomized Control Trial”, Neurorehabil. Neural Repair, c. 27, sy 1, ss. 13-23, Oca. 2013.
- [22] E. Pedreira da Fonseca, N. M. Ribeiro da Silva, ve E. B. Pinto, “Therapeutic Effect of Virtual Reality on Post-Stroke Patients: Randomized Clinical Trial”, J. Stroke Cerebrovasc. Dis., c. 26, sy 1, ss. 94-100, Oca. 2017.
- [23] R. C. Stockley, D. A. O’Connor, P. Smith, S. Moss, L. Allsop, ve W. Edge, “A Mixed Methods Small Pilot Study to Describe the Effects of Upper Limb Training Using a Virtual Reality Gaming System in People with Chronic Stroke”, Rehabil. Res. Pract., c. 2017, ss. 1-8, 2017.
- [24] R. Lloréns, E. Noé, C. Colomer, ve M. Alcañiz, “Effectiveness, Usability, and Cost-Benefit of a Virtual Reality–Based Telerehabilitation Program for Balance Recovery After Stroke: A Randomized Controlled Trial”, Arch. Phys. Med. Rehabil., c. 96, sy 3, ss. 418-425.e2, Mar. 2015.
- [25] J.-H. Shin, H. Ryu, ve S. Jang, “A task-specific interactive game-based virtual reality rehabilitation system for patients with stroke: a usability test and two clinical experiments”, J. NeuroEngineering Rehabil., c. 11, sy 1, s. 32, 2014.
- [26] R. T. Viana, G. E. C. Laurentino, R. J. P. Souze, J. B. Fonseca, E. M. Silva Filho, S. N. Dias, L. F. Teixeria-Salmela, K. K. Monte-Silva. “Effects of the addition of transcranial direct current stimulation to virtual reality therapy after stroke: A pilot randomized controlled trial”, NeuroRehabilitation, sy 3, ss. 437–446, 2014.
- [27] M.-P. Tsai, T.-Y. Chuang, W.-H. Sung, R.-Y. Wang, ve R.-Y. Wang, “Virtual reality-based training improves community ambulation in individuals with stroke: A randomized controlled trial”, Gait Posture, c. 28, sy 2, ss. 201-206, Ağu. 2008.
- [28] D. S. Nichols, “Balance Retraining After Stroke Using Force Platform Biofeedback”, Phys. Ther., c. 77, sy 5, ss. 553-558, May. 1997.
Yıl 2020,
Cilt: 2 Sayı: 1, 42 - 49, 30.06.2020
Mithat Yavuzarslan
,
Denizhan Demirkol
,
Sevinç Gülseçen
Kaynakça
- [1] World Health Organization, “Stroke, Cerebrovascular accident”, Health Topics, 31-Oca-2015. .
- [2] Türk Nöroloji Derneği, “Dünya ve Türkiye İnme Verileri”, Türk Nöroloji Derneği, Eki. 2017.
- [3] Türkiye İstatistik Kurumu, “Ölüm Nedeni İstatistikleri, 2017”, www.tuik.gov.tr, Haber Bülteni 27620, Nis. 2018.
- [4] P. Langhorne, F. Coupar, ve A. Pollock, “Motor recovery after stroke: a systematic review”, Lancet Neurol., c. 8, sy 8, ss. 741-754, Ağu. 2009.
- [5] K. R. Lohse, C. G. E. Hilderman, K. L. Cheung, S. Tatla, ve H. F. M. Van der Loos, “Virtual Reality Therapy for Adults Post-Stroke: A Systematic Review and Meta-Analysis Exploring Virtual Environments and Commercial Games in Therapy”, PLoS ONE, c. 9, sy 3, s. e93318, Mar. 2014.
- [6] G. Saposnik, R. Teasell, M. Mamdani, J. Hall, W. McIlroy, D. Cheung, K. E. Thorpe, L. G. Cohen, M. Bayley. “Effectiveness of Virtual Reality Using Wii Gaming Technology in Stroke Rehabilitation: A Pilot Randomized Clinical Trial and Proof of Principle”, Stroke, c. 41, sy 7, ss. 1477-1484, Tem. 2010.
- [7] K. Laver, B. Lange, S. George, J. E. Deutsch, G. Saposnik, ve M. Crotty, “Virtual reality for stroke rehabilitation”, Cochrane Database Syst. Rev., sy 11, s. 110, 2017.
- [8] A. Turolla, M. Dam, L. Ventura, P. Tonin, M. Agostini, C. Zucconi, P. Kiper, A. Cagnin, L. Piron. “Virtual reality for the rehabilitation of the upper limb motor function after stroke: a prospective controlled trial”, J. NeuroEngineering Rehabil., c. 10, sy 1, s. 85, 2013.
- [9] G. Saposnik, L. G. Cohen, M. Mamdani, S. Pooyania, M. Plougman, D. Cheung, J. Shaw, J. Hall, P. Nord, S. Dukelow, Y. Nilanont, F. De los Rios, L. Olmos, M. Levin, R. Teasell, A. Cohen, K. Thorpe, A. Laupacis, M. Bayley. “Efficacy and safety of non-immersive virtual reality exercising in stroke rehabilitation (EVREST): a randomised, multicentre, single-blind, controlled trial”, Lancet Neurol., c. 15, sy 10, ss. 1019-1027, Eyl. 2016.
- [10] J. H. Kim, S. H. Jang, C. S. Kim, J. H. Jung, ve J. H. You, “Use of Virtual Reality to Enhance Balance and Ambulation in Chronic Stroke: A Double-Blind, Randomized Controlled Study”, Am. J. Phys. Med. Rehabil., c. 88, sy 9, s. 693, Eyl. 2009.
- [11] Y.-R. Yang, M.-P. Tsai, T.-Y. Chuang, W.-H. Sung, ve R.-Y. Wang, “Virtual reality-based training improves community ambulation in individuals with stroke: A randomized controlled trial”, Gait Posture, c. 28, sy 2, ss. 201-206, Ağu. 2008.
- [12] L. Connelly, Yicheng Jia, M. L. Toro, M. E. Stoykov, R. V. Kenyon, ve D. G. Kamper, “A Pneumatic Glove and Immersive Virtual Reality Environment for Hand Rehabilitative Training After Stroke”, IEEE Trans. Neural Syst. Rehabil. Eng., c. 18, sy 5, ss. 551-559, Eki. 2010.
- [13] A. Mirelman, P. Bonato, ve J. E. Deutsch, “Effects of Training With a Robot-Virtual Reality System Compared With a Robot Alone on the Gait of Individuals After Stroke”, Stroke, c. 40, sy 1, ss. 169-174, Oca. 2009.
- [14] S. C. da Cameiaro, B. i B. Sergi, D. Esther, ve V. P. F.M.J, “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., sy 5, ss. 287–298, 2011.
- [15] K. H. Cho, K. J. Lee, ve C. H. Song, “Virtual-Reality Balance Training with a Video-Game System Improves Dynamic Balance in Chronic Stroke Patients”, Tohoku J. Exp. Med., c. 228, sy 1, ss. 69-74, 2012.
- [16] G. Yavuzer, A. Senel, M. B. Atay, ve H. J. Stam, “”Playstation eyetoy games”improve upper extremity-related motor functioning in subacute stroke: a randomized controlled clinical trial.”, Eur. J. Phys. Rehabil. Med., c. 44, sy 3, ss. 237–244, 2008.
- [17] S. Yang, W.-H. Hwang, Y.-C. Tsai, F.-K. Liu, L.-F. Hsieh, ve J.-S. Chern, “Improving Balance Skills in Patients Who Had Stroke Through Virtual Reality Treadmill Training”:, Am. J. Phys. Med. Rehabil., c. 90, sy 12, ss. 969-978, Ara. 2011.
- [18] S. J. Housman, K. M. Scott, ve D. J. Reinkensmeyer, “A Randomized Controlled Trial of Gravity-Supported, Computer-Enhanced Arm Exercise for Individuals With Severe Hemiparesis”, Neurorehabil. Neural Repair, c. 23, sy 5, ss. 505-514, Haz. 2009.
- [19] E. K. Kim, J. H. Kang, J. S. Park, ve B. H. Jung, “Clinical Feasibility of Interactive Commercial Nintendo Gaming for Chronic Stroke Rehabilitation”, J. Phys. Ther. Sci., c. 24, sy 9, ss. 901-903, 2012.
- [20] H. Sin ve G. Lee, “Additional virtual reality training using Xbox Kinect in stroke survivors with hemiplegia”, Am. J. Phys. Med. Rehabil., c. 92, sy 10, ss. 871–880, 2013.
- [21] S. K. Subramanian, C. B. Lourenço, G. Chilingaryan, H. Sveistrup, ve M. F. Levin, “Arm Motor Recovery Using a Virtual Reality Intervention in Chronic Stroke: Randomized Control Trial”, Neurorehabil. Neural Repair, c. 27, sy 1, ss. 13-23, Oca. 2013.
- [22] E. Pedreira da Fonseca, N. M. Ribeiro da Silva, ve E. B. Pinto, “Therapeutic Effect of Virtual Reality on Post-Stroke Patients: Randomized Clinical Trial”, J. Stroke Cerebrovasc. Dis., c. 26, sy 1, ss. 94-100, Oca. 2017.
- [23] R. C. Stockley, D. A. O’Connor, P. Smith, S. Moss, L. Allsop, ve W. Edge, “A Mixed Methods Small Pilot Study to Describe the Effects of Upper Limb Training Using a Virtual Reality Gaming System in People with Chronic Stroke”, Rehabil. Res. Pract., c. 2017, ss. 1-8, 2017.
- [24] R. Lloréns, E. Noé, C. Colomer, ve M. Alcañiz, “Effectiveness, Usability, and Cost-Benefit of a Virtual Reality–Based Telerehabilitation Program for Balance Recovery After Stroke: A Randomized Controlled Trial”, Arch. Phys. Med. Rehabil., c. 96, sy 3, ss. 418-425.e2, Mar. 2015.
- [25] J.-H. Shin, H. Ryu, ve S. Jang, “A task-specific interactive game-based virtual reality rehabilitation system for patients with stroke: a usability test and two clinical experiments”, J. NeuroEngineering Rehabil., c. 11, sy 1, s. 32, 2014.
- [26] R. T. Viana, G. E. C. Laurentino, R. J. P. Souze, J. B. Fonseca, E. M. Silva Filho, S. N. Dias, L. F. Teixeria-Salmela, K. K. Monte-Silva. “Effects of the addition of transcranial direct current stimulation to virtual reality therapy after stroke: A pilot randomized controlled trial”, NeuroRehabilitation, sy 3, ss. 437–446, 2014.
- [27] M.-P. Tsai, T.-Y. Chuang, W.-H. Sung, R.-Y. Wang, ve R.-Y. Wang, “Virtual reality-based training improves community ambulation in individuals with stroke: A randomized controlled trial”, Gait Posture, c. 28, sy 2, ss. 201-206, Ağu. 2008.
- [28] D. S. Nichols, “Balance Retraining After Stroke Using Force Platform Biofeedback”, Phys. Ther., c. 77, sy 5, ss. 553-558, May. 1997.