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- Title
Assessing perceptions to a virtual reality intervention to improve trunk control in Parkinson's disease: a preliminary study.
- Authors
Stamenkovic, Alexander; Underation, Matthew; Cloud, Leslie J.; Pidcoe, Peter E.; Baron, Mark S.; Hand, Robert; France, Christopher R.; van der Veen, Susanne M.; Thomas, James S.
- Abstract
Trunk control and postural instability remain critical markers of functional status in Parkinson's Disease (PD). As pharmacological and invasive neuro-stimulation interventions provide only limited benefits for trunk and postural control, exercise-based interventions may provide the only effective path to improving functional outcomes for balance in PD. We describe the framework for a virtual reality (VR) graded exercise-based intervention focused on improving trunk mobility and control, including preliminary outcomes on perceptions and motion capabilities of individuals with PD. The study collected whole-body motion capture from 11 PD participants (8M, 3F; H&Y Stage I–III) as they performed tasks within a custom-designed set of VR therapies. Therapies involved static interactions (e.g., matching a cube sequence set to anthropometrically relevant locations to elicit specific trunk motions—Matchality), and more dynamic tasks (e.g., intercepting virtual fish jumping from a lake—Fishality, or a virtual session of dodgeball—Dodgeality). Participants were able to safely complete all tasks while performing trunk excursions requiring functionally relevant ranges of motion, and which altered across VR environment (F(1,10) = 8.319, p = 0.016). Overall, satisfaction with the MoVR therapy suite was high with 96% of responses showing agreement to questions relating to 'immersion,' 'fun,' and elements of player engagement. These results provide early safety, usability, and feasibility outcomes for VR interventions that require specific trunk excursions. Future work should confirm the effectiveness of VR interventions longitudinally on PD-specific trunk outcomes (e.g., trunk rigidity) and global balance/mobility measures associated with improved functional status.
- Subjects
PARKINSON'S disease; MOTION capture (Human mechanics); VIRTUAL reality; FUNCTIONAL status; RANGE of motion of joints; SATISFACTION; MOBILITY of older people; DEEP brain stimulation
- Publication
Virtual Reality, 2023, Vol 27, Issue 1, p465
- ISSN
1359-4338
- Publication type
Article
- DOI
10.1007/s10055-022-00657-z