Published on in Vol 8, No 5 (2020): May

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/17804, first published .
Augmented Reality–Based Rehabilitation of Gait Impairments: Case Report

Augmented Reality–Based Rehabilitation of Gait Impairments: Case Report

Augmented Reality–Based Rehabilitation of Gait Impairments: Case Report

Journals

  1. Held J, Veerbeek J. Training in virtuellen Welten – Neuroreha mit Augmented Reality erweitern. physiopraxis 2020;18(09):34 View
  2. Pires I, Lopes E, Villasana M, Garcia N, Zdravevski E, Ponciano V. A Brief Review on the Sensor Measurement Solutions for the Ten-Meter Walk Test. Computers 2021;10(4):49 View
  3. Salisbury J. Using Medical Device Standards for Design and Risk Management of Immersive Virtual Reality for At-Home Therapy and Remote Patient Monitoring. JMIR Biomedical Engineering 2021;6(2):e26942 View
  4. Wang P, Wang Y, Chen Y, Hsu P, Yang Y. An Augmented Reality (AR) App Enhances the Pulmonary Function and Potency/Feasibility of Perioperative Rehabilitation in Patients Undergoing Orthopedic Surgery. International Journal of Environmental Research and Public Health 2022;20(1):648 View
  5. Malick W, Butt R, Awan W, Ashfaq M, Mahmood Q. Effects of Augmented Reality Interventions on the Function of Upper Extremity and Balance in Children With Spastic Hemiplegic Cerebral Palsy: A Randomized Clinical Trial. Frontiers in Neurology 2022;13 View
  6. Baashar Y, Alkawsi G, Wan Ahmad W, Alomari M, Alhussian H, Tiong S. Towards Wearable Augmented Reality in Healthcare: A Comparative Survey and Analysis of Head-Mounted Displays. International Journal of Environmental Research and Public Health 2023;20(5):3940 View
  7. Guo L, Wang J, Wu Q, Li X, Zhang B, Zhou L, Xiong D. Clinical Study of a Wearable Remote Rehabilitation Training System for Patients With Stroke: Randomized Controlled Pilot Trial. JMIR mHealth and uHealth 2023;11:e40416 View
  8. Miller Koop M, Rosenfeldt A, Owen K, Penko A, Streicher M, Albright A, Alberts J. The Microsoft HoloLens 2 Provides Accurate Measures of Gait, Turning, and Functional Mobility in Healthy Adults. Sensors 2022;22(5):2009 View
  9. Chang C, Yeh C, Chang C, Lin Y. Interactive Somatosensory Games in Rehabilitation Training for Older Adults With Mild Cognitive Impairment: Usability Study. JMIR Serious Games 2022;10(3):e38465 View
  10. Kashezhev A, Lutokhin G, Rassulova M, Pogonchenkova I, Turova E, Utegenova U, Samokhvalov R. Virtual reality technology in medical rehabilitation of patients with ischemic stroke. Voprosy kurortologii, fizioterapii i lechebnoi fizicheskoi kul'tury 2022;99(6):50 View
  11. Butz B, Jussen A, Rafi A, Lux G, Gerken J. A Taxonomy for Augmented and Mixed Reality Applications to Support Physical Exercises in Medical Rehabilitation—A Literature Review. Healthcare 2022;10(4):646 View
  12. Liu P, Lu L, Zhang J, Huo T, Liu S, Ye Z. Application of Artificial Intelligence in Medicine: An Overview. Current Medical Science 2021;41(6):1105 View
  13. Chang H, Song Y, Cen X, Chen W. Effectiveness of Augmented Reality for Lower Limb Rehabilitation: A Systematic Review. Applied Bionics and Biomechanics 2022;2022:1 View
  14. Stasolla F, Vinci L, Cusano M. The Integration of Assistive Technology and Virtual Reality for Assessment and Recovery of Post-coma Patients With Disorders of Consciousness: A New Hypothesis. Frontiers in Psychology 2022;13 View
  15. Palumbo A. Microsoft HoloLens 2 in Medical and Healthcare Context: State of the Art and Future Prospects. Sensors 2022;22(20):7709 View
  16. Guo L, Zhang B, Wang J, Wu Q, Li X, Zhou L, Xiong D. Wearable Intelligent Machine Learning Rehabilitation Assessment for Stroke Patients Compared with Clinician Assessment. Journal of Clinical Medicine 2022;11(24):7467 View
  17. Patsaki I, Dimitriadi N, Despoti A, Tzoumi D, Leventakis N, Roussou G, Papathanasiou A, Nanas S, Karatzanos E. The effectiveness of immersive virtual reality in physical recovery of stroke patients: A systematic review. Frontiers in Systems Neuroscience 2022;16 View
  18. Li C, Song X, Chen S, Wang C, He J, Zhang Y, Xu S, Yan Z, Jia J, Shull P. Long-term Effectiveness and Adoption of a Cellphone Augmented Reality System on Patients with Stroke: Randomized Controlled Trial. JMIR Serious Games 2021;9(4):e30184 View
  19. Hribernik M, Umek A, Tomažič S, Kos A. Review of Real-Time Biomechanical Feedback Systems in Sport and Rehabilitation. Sensors 2022;22(8):3006 View
  20. Howard M, Davis M. A meta-analysis and systematic literature review of mixed reality rehabilitation programs: Investigating design characteristics of augmented reality and augmented virtuality. Computers in Human Behavior 2022;130:107197 View
  21. Pillai A, Sunny M, Shahria M, Banik N, Rahman M. Gamification of Upper Limb Rehabilitation in Mixed-Reality Environment. Applied Sciences 2022;12(23):12260 View
  22. Khokale R, S. Mathew G, Ahmed S, Maheen S, Fawad M, Bandaru P, Zerin A, Nazir Z, Khawaja I, Sharif I, Abdin Z, Akbar A. Virtual and Augmented Reality in Post-stroke Rehabilitation: A Narrative Review. Cureus 2023 View
  23. de Crignis A, Ruhnau S, Hösl M, Lefint J, Amberger T, Dressnandt J, Brunner H, Müller F. Robotic arm training in neurorehabilitation enhanced by augmented reality – a usability and feasibility study. Journal of NeuroEngineering and Rehabilitation 2023;20(1) View
  24. Gabriel C, Pires I, Coelho P, Zdravevski E, Lameski P, Mewada H, Madeira F, Garcia N, Carreto C. Mobile and wearable technologies for the analysis of Ten Meter Walk Test: A concise systematic review. Heliyon 2023;9(6):e16599 View
  25. Antonelli M, Lucignani M, Parrillo C, Grassi F, Figà Talamanca L, Rossi Espagnet M, Gandolfo C, Secinaro A, Pasquini L, De Benedictis A, Placidi E, De Palma L, Marras C, Marasi A, Napolitano A. Magnetic resonance imaging based neurosurgical planning on hololens 2: A feasibility study in a paediatric hospital. DIGITAL HEALTH 2023;9 View
  26. Butaslac I, Fujimoto Y, Sawabe T, Kanbara M, Kato H. Systematic Review of Augmented Reality Training Systems. IEEE Transactions on Visualization and Computer Graphics 2023;29(12):5062 View
  27. Yang K, McErlain-Naylor S, Isaia B, Callaway A, Beeby S. E-Textiles for Sports and Fitness Sensing: Current State, Challenges, and Future Opportunities. Sensors 2024;24(4):1058 View
  28. Hoogendoorn E, Geerse D, van Dam A, Stins J, Roerdink M. Gait-modifying effects of augmented-reality cueing in people with Parkinson’s disease. Frontiers in Neurology 2024;15 View

Books/Policy Documents

  1. Patil V, Narayan J, Sandhu K, Dwivedy S. Revolutions in Product Design for Healthcare. View
  2. Muñoz J, Montoya M, Boger J. Smart Home Technologies and Services for Geriatric Rehabilitation. View
  3. Fluet G, Roy D, Llorens R, Bermúdez i Badia S, Deutsch J. Neurorehabilitation Technology. View
  4. Klamroth-Marganska V, Giovanoli S, Easthope C, Schönhammer J. Neurorehabilitation Technology. View
  5. Muto Y, Kasuya J, Oshiba M, Yamada R, Suzuki Y, Hagiwara M, Muto T. Human-Computer Interaction. View
  6. de Crignis A, Müller F. Assistive Technologien, technische Rehabilitation und Unterstützte Kommunikation. View
  7. Amorim L, Da Gama A. IX Latin American Congress on Biomedical Engineering and XXVIII Brazilian Congress on Biomedical Engineering. View
  8. Amorim L, Da Gama A. IX Latin American Congress on Biomedical Engineering and XXVIII Brazilian Congress on Biomedical Engineering. View