Virtual Reality Impact on Powered Mobility: a Feasibility Study (VR-PMP)

Children diagnosed with Cerebral Palsy (CP) and neuromuscular diseases (NMDs) often face significant challenges in achieving independent mobility due to motor impairments. Powered mobility is a viable option, but it requires extensive training to ensure safe driving conditions. Typically, wheelchair training is conducted with therapists at the hospital, incurring considerable costs for the national health system. Additionally, 10-40% of people are unable to use a power wheelchair due to sensory, motor, and neurocognitive impairments. These individuals are deemed unable to drive safely and are often forced to use manual wheelchairs or rely on caregivers for support. Driving skills and appropriate aids for independent mobility are established based on the Powered Mobility Program (PMP). However, to date, no clinically validated tools exist to support user training in fulfilling the PMP requirements.

Virtual reality (VR) offers a portable solution for safe training at home. However, current VR simulators have not been developed to assess users' driving skills, and they typically allow control via joysticks or hand trackers, which are unusable for individuals with severe upper limb motor impairments. In this context, brain-computer interfaces (BCIs) represent a potential innovative control interface.

Integrating VR into powered wheelchair (PW) training introduces new possibilities for enhancing rehabilitation programs by offering engaging and personalized experiences tailored to the unique needs of children with CP and NMDs. The VR Powered Mobility Program (VR-PMP), which integrates 3D gaming tailored to PMP tasks accessible via laptops or VR headsets, aims to harness the potential of VR to enhance PW training. VR-PMP seeks to facilitate motor learning through repetitive practice in realistic and engaging contexts.

The primary objective of this study is to assess the feasibility of using immersive and semi-immersive VR for powered mobility (PM) training and to determine the impact of VR technologies on PW driving skills in children with CP and NMDs, including those with severe upper limb motor impairments.

The secondary aims are:

To assess the impact of VR: evaluating the use of VR on the level of assistance, supervision, and autonomy in PW driving, measured through the overall PMP score, comparing PMP scores obtained before and after VR training to determine improvements in PW driving skills.

To correlate physiological signals collected during VR-PMP sessions with motion sickness and workload assessments to understand stress levels and engagement.

To investigate the usability and satisfaction with the VR PMP system through questionnaires and scales, focusing on the feasibility of home training sessions for driving practice.