Using visuo-kinetic virtual reality to induce illusory spinal movement: the MoOVi Illusion

Illusions that alter perception of the body provide novel opportunities to target brain-based contributions to problems such as persistent pain. One example of this, mirror therapy, uses vision to augment perceived movement of a painful limb to treat pain. Since mirrors can't be used to induce...

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Bibliographic Details
Published in:PeerJ (San Francisco, CA) CA), 2017-02, Vol.5, p.e3023-e3023, Article e3023
Main Authors: Harvie, Daniel S, Smith, Ross T, Hunter, Estin V, Davis, Miles G, Sterling, Michele, Moseley, G Lorimer
Format: Article
Language:English
Subjects:
Anaesthesiology and Pain Management
Auditory stimuli
Back pain
Bodily illusion
Brain research
Brain training
Central mechanisms
Chronic illnesses
Chronic pain
Computer applications
Depth perception
Drift
Drugs and Devices
Feedback
Health aspects
Human-Computer Interaction
Manipulative therapy
Medicine
Motion detection
Neck
Neuroscience
Neurosciences
Pain
Pain management
Perceptions
Rubber
Sensorimotor integration
Sensory integration
Sports medicine
Virtual reality
Visual perception
Walking
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Summary:Illusions that alter perception of the body provide novel opportunities to target brain-based contributions to problems such as persistent pain. One example of this, mirror therapy, uses vision to augment perceived movement of a painful limb to treat pain. Since mirrors can't be used to induce augmented neck or other spinal movement, we aimed to test whether such an illusion could be achieved using virtual reality, in advance of testing its potential therapeutic benefit. We hypothesised that perceived head rotation would depend on visually suggested movement. In a within-subjects repeated measures experiment, 24 healthy volunteers performed neck movements to 50 of rotation, while a virtual reality system delivered corresponding visual feedback that was offset by a factor of 50%-200%-the Motor Offset Visual Illusion (MoOVi)-thus simulating more or less movement than that actually occurring. At 50 of real-world head rotation, participants pointed in the direction that they perceived they were facing. The discrepancy between actual and perceived direction was measured and compared between conditions. The impact of including multisensory (auditory and visual) feedback, the presence of a virtual body reference, and the use of 360 immersive virtual reality with and without three-dimensional properties, was also investigated. Perception of head movement was dependent on visual-kinaesthetic feedback (  = 0.001, partial eta squared = 0.17). That is, altered visual feedback caused a kinaesthetic drift in the direction of the visually suggested movement. The magnitude of the drift was not moderated by secondary variables such as the addition of illusory auditory feedback, the presence of a virtual body reference, or three-dimensionality of the scene. Virtual reality can be used to augment perceived movement and body position, such that one can perform a small movement, yet perceive a large one. The MoOVi technique tested here has clear potential for assessment and therapy of people with spinal pain.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.3023