Use of Virtual Reality to Assess Dynamic Posturography and Sensory Organization: Instrument Validation Study

Journals

1. Moon S, Huang C, Sadeghi M, Akinwuntan A, Devos H. Proof-of-Concept of the Virtual Reality Comprehensive Balance Assessment and Training for Sensory Organization of Dynamic Postural Control. Frontiers in Bioengineering and Biotechnology 2021;9 View
2. Rosiak O, Puzio A, Kaminska D, Zwolinski G, Jozefowicz-Korczynska M. Virtual Reality—A Supplement to Posturography or a Novel Balance Assessment Tool?. Sensors 2022;22(20):7904 View
3. Hawkins K, Paul S, Chiarovano E, Curthoys I. Using virtual reality to assess vestibulo-visual interaction in people with Parkinson’s disease compared to healthy controls. Experimental Brain Research 2021;239(12):3553 View
4. Canete S, Wilson E, Wright W, Jacobs D. The Effects of Exoskeleton Assistance at the Ankle on Sensory Integration During Standing Balance. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2023;31:4428 View
5. Gerber E, Huang C, Moon S, Devos H, Luchies C. Sensory reweighting of postural control requires distinct rambling and trembling sway adaptations. Gait & Posture 2024;112:16 View
6. Warchoł J, Tetych A, Tomaszewski R, Kowalczyk B, Olchowik G. Virtual Reality-Induced Modification of Vestibulo–Ocular Reflex Gain in Posturography Tests. Journal of Clinical Medicine 2024;13(10):2742 View
7. Schedler S, Gramann K, Hill M, Muehlbauer T. Balance performance of healthy young individuals in real versus matched virtual environments: a systematic scoping review. Frontiers in Human Neuroscience 2024;18 View
8. Sung P, Lee D. Insights From Sensory Organization Test on Balance Strategies and Fall Efficacy in Chronic Low Back Pain. Physiotherapy Research International 2025;30(2) View
9. Humphrey D, Kelly J, Rosario E, Keller Johnson T, Lubetzky A. Moving Sounds Increase Postural Visual Dependence in Adults With Chronic Traumatic Brain Injury. Journal of Neurologic Physical Therapy 2025;49(4):222 View
10. Xu F. Design of AR-based general computer technology experiment demonstration platform. Nonlinear Engineering 2025;14(1) View
11. Tucak C, Tateishi N, Cormack L, Fary R. The portable Sway mobile application is a valid tool to measure balance when compared with a gold standard and is sensitive to change following foot mobilisation. Gait & Posture 2025;121:150 View
12. Curran K, Holland G, Redfern M, Cham R. Comparing sensory organization test measures of the Bertec® Balance Advantage® CDP/IVRTM and NeuroCom® Smart EquiTest® computerized dynamic posturography systems in young and older healthy adults. Gait & Posture 2025;121:308 View
13. De Pasquale P, Ielo A, De Marchis C, Borzelli D, Casile A, Caronni A, Scarano S, Calabrò R, Tesio L, Quartarone A, d’Avella A. Implementation of the sensory organization test with the CAREN system: a pilot study. Frontiers in Bioengineering and Biotechnology 2025;13 View
14. Saucier D, McDonald K, Mydlo M, Barber R, Wall E, Derby H, Reneker J, Chander H, Burch R, Weinstein J. Validating a Wearable VR Headset for Postural Sway: Comparison with Force Plate COP Across Standardized Sensorimotor Tests. Electronics 2025;14(21):4156 View
15. Sung P, Lee D. Dynamic sensory integration and visual reliance modulation during postural control in older adults with chronic low back pain. European Spine Journal 2025 View

Books/Policy Documents

1. Galescu-Blidariu M, Jurca L, Stoia D, Totorean A. Acoustics and Vibration of Mechanical Structures—AVMS-2025. View