This paper is in the following e-collection/theme issue:

Serious Games for Health and Medicine (510) Virtual Reality and Virtual Worlds (373) Cognitive and Neurorehabilitation (198)

Published on in Vol 5 , No 3 (2017) :Jul-Sept

Domiciliary VR-Based Therapy for Functional Recovery and Cortical Reorganization: Randomized Controlled Trial in Participants at the Chronic Stage Post Stroke

Domiciliary VR-Based Therapy for Functional Recovery and Cortical Reorganization: Randomized Controlled Trial in Participants at the Chronic Stage Post Stroke

Domiciliary VR-Based Therapy for Functional Recovery and Cortical Reorganization: Randomized Controlled Trial in Participants at the Chronic Stage Post Stroke

Authors of this article:

Belén Rubio Ballester 1 Author Orcid Image ;   Jens Nirme 1 Author Orcid Image ;   Irene Camacho 2 Author Orcid Image ;   Esther Duarte 2 Author Orcid Image ;   Susana Rodríguez 3 Author Orcid Image ;   Ampar Cuxart 3 Author Orcid Image ;   Armin Duff 1 Author Orcid Image ;   Paul F.M.J. Verschure 1, 4, 5 Author Orcid Image
Article Authors Cited by (27) Tweetations (2) Metrics

Journals

  1. Maier M, Ballester B, Leiva Bañuelos N, Duarte Oller E, Verschure P. Adaptive conjunctive cognitive training (ACCT) in virtual reality for chronic stroke patients: a randomized controlled pilot trial. Journal of NeuroEngineering and Rehabilitation 2020;17(1) View
  2. Ballester B, Maier M, Duff A, Cameirão M, Bermúdez S, Duarte E, Cuxart A, Rodríguez S, San Segundo Mozo R, Verschure P. A critical time window for recovery extends beyond one-year post-stroke. Journal of Neurophysiology 2019;122(1):350 View
  3. Johnson L, Bird M, Muthalib M, Teo W. An Innovative STRoke Interactive Virtual thErapy (STRIVE) Online Platform for Community-Dwelling Stroke Survivors: A Randomized Controlled Trial. Archives of Physical Medicine and Rehabilitation 2020;101(7):1131 View
  4. D'Anci K, Uhl S, Oristaglio J, Sullivan N, Tsou A. Treatments for Poststroke Motor Deficits and Mood Disorders: A Systematic Review for the 2019 U.S. Department of Veterans Affairs and U.S. Department of Defense Guidelines for Stroke Rehabilitation. Annals of Internal Medicine 2019;171(12):906 View
  5. Kim W, Cho S, Ku J, Kim Y, Lee K, Hwang H, Paik N. Clinical Application of Virtual Reality for Upper Limb Motor Rehabilitation in Stroke: Review of Technologies and Clinical Evidence. Journal of Clinical Medicine 2020;9(10):3369 View
  6. Ellis F, Kennedy N, Hancock N, Pomeroy V. Neurophysiological changes accompanying reduction in upper limb motor impairments in response to exercise-based virtual rehabilitation after stroke: systematic review. Physiotherapy 2021;113:141 View
  7. Escalante-Gonzalbo A, Ramírez-Graullera Y, Pasantes H, Aguilar-Chalé J, Sánchez-Castillo G, Escutia-Macedo X, Briseño-Soriano T, Franco-Castro P, Estrada-Rosales A, Vázquez-Abundes S, Andrade-Morales D, Hernández-Franco J, Palafox L. Safety, Feasibility, and Acceptability of a New Virtual Rehabilitation Platform: A Supervised Pilot Study. Rehabilitation Process and Outcome 2021;10:117957272110332 View
  8. Páscoa dos Santos F, Verschure P. Excitatory-Inhibitory Homeostasis and Diaschisis: Tying the Local and Global Scales in the Post-stroke Cortex. Frontiers in Systems Neuroscience 2022;15 View
  9. Burton Q, Lejeune T, Dehem S, Lebrun N, Ajana K, Edwards M, Everard G. Performing a shortened version of the Action Research Arm Test in immersive virtual reality to assess post-stroke upper limb activity. Journal of NeuroEngineering and Rehabilitation 2022;19(1) View
  10. Simons L, Hess C, Choate E, Van Orden A, Tremblay-McGaw A, Menendez M, Boothroyd D, Parvathinathan G, Griffin A, Caruso T, Stinson J, Weisman A, Liu T, Koeppen K. Virtual Reality–Augmented Physiotherapy for Chronic Pain in Youth: Protocol for a Randomized Controlled Trial Enhanced With a Single-Case Experimental Design. JMIR Research Protocols 2022;11(12):e40705 View
  11. Juan M, Elexpuru J, Dias P, Santos B, Amorim P. Immersive virtual reality for upper limb rehabilitation: comparing hand and controller interaction. Virtual Reality 2022 View
  12. Ellis F, Hancock N, Kennedy N, Clark A, Wells J, Chandler E, Payne D, Pomeroy V. Consideration-of-concept of EvolvRehab-Body for upper limb virtual rehabilitation at home for people late after stroke. Physiotherapy 2022;116:97 View
  13. Caballeria E, Maier M, Balcells-Oliveró M, López-Pelayo H, Oliveras C, Rubio Ballester B, Verschure P, Gual A. Rehabilitation Gaming System for Alcohol-Related Cognitive Impairment: A Pilot Usability Study. Alcohol and Alcoholism 2022;57(5):595 View
  14. Hao J, Yao Z, Harp K, Gwon D, Chen Z, Siu K. Effects of virtual reality in the early-stage stroke rehabilitation: A systematic review and meta-analysis of randomized controlled trials. Physiotherapy Theory and Practice 2022:1 View
  15. Garcia A, Mayans B, Margelí C, Pamplona A, Molas C, Monràs J, Alpiste F, Torner J, Serrancolí G. A feasibility study to assess the effectiveness of Muvity: A telerehabilitation system for chronic post-stroke subjects. Journal of Stroke and Cerebrovascular Diseases 2022;31(11):106791 View
  16. Mura A, Maier M, Ballester B, De la Torre Costa J, López-Luque J, Gelineau A, Mandigout S, Ghatan P, Fiorillo R, Antenucci F, Coolen T, Chivite I, Callen A, Landais H, Gómez O, Melero C, Brandi S, Domenech M, Daviet J, Zucca R, Verschure P. Bringing rehabilitation home with an e-health platform to treat stroke patients: study protocol of a randomized clinical trial (RGS@home). Trials 2022;23(1) View
  17. Everard G, Luc A, Doumas I, Ajana K, Stoquart G, Edwards M, Lejeune T. Self-Rehabilitation for Post-Stroke Motor Function and Activity–A Systematic Review and Meta-Analysis. Neurorehabilitation and Neural Repair 2021;35(12):1043 View
  18. Hao J, Xie H, Harp K, Chen Z, Siu K. Effects of Virtual Reality Intervention on Neural Plasticity in Stroke Rehabilitation: A Systematic Review. Archives of Physical Medicine and Rehabilitation 2022;103(3):523 View
  19. Forman C, Nielsen J, Lorentzen J. Neuroplasticity at Home: Improving Home-Based Motor Learning Through Technological Solutions. A Review. Frontiers in Rehabilitation Sciences 2021;2 View
  20. Bui J, Luauté J, Farnè A. Enhancing Upper Limb Rehabilitation of Stroke Patients With Virtual Reality: A Mini Review. Frontiers in Virtual Reality 2021;2 View
  21. Toh S, Chia P, Fong K. Effectiveness of home-based upper limb rehabilitation in stroke survivors: A systematic review and meta-analysis. Frontiers in Neurology 2022;13 View
  22. Zhang Q, Fu Y, Lu Y, Zhang Y, Huang Q, Yang Y, Zhang K, Li M. Impact of Virtual Reality-Based Therapies on Cognition and Mental Health of Stroke Patients: Systematic Review and Meta-analysis. Journal of Medical Internet Research 2021;23(11):e31007 View
  23. Gelineau A, Perrochon A, Robin L, Daviet J, Mandigout S. Measured and Perceived Effects of Upper Limb Home-Based Exergaming Interventions on Activity after Stroke: A Systematic Review and Meta-Analysis. International Journal of Environmental Research and Public Health 2022;19(15):9112 View
  24. Toh S, Fong K, Gonzalez P, Tang Y. Application of Home-Based Wearable Technologies in Physical Rehabilitation for Stroke: A Scoping Review. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2023;31:1614 View

Books/Policy Documents

  1. Verschure P. Converging Clinical and Engineering Research on Neurorehabilitation IV. View
  2. Fluet G, Roy D, Llorens R, Bermúdez i Badia S, Deutsch J. Neurorehabilitation Technology. View