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Clinical Trial Summary

Losing the ability to walk can lead to fewer opportunities to socialize with friends and family and participate in the community. When this happens, powered wheelchairs can provide access to homes and communities, contributing to health and well-being. Training by a qualified occupational therapist allows an individual to use a powered wheelchair safely and effectively. Learning to drive a powered wheelchair can be difficult, frustrating and time consuming for people with cognitive and physical challenges. In this study, we will ask participants with cognitive impairments to complete training with an occupational therapist using either a shared control wheelchair or training methods according to the standard of care. We believe shared control training, entitled Collaborative Powered mobility Innovative Learning OpporTunity (CoPILOT) will enhance driving skill while maximizing safety learning. CoPILOT has the potential to enable people to participate more in their day to day lives and regain mobility independence.


Clinical Trial Description

Background: Powered wheelchairs can improve participation in daily life, increase quality of life, and add 'life to years' for individuals with SCI. Cognitive limitations, associated with advanced age at the time of a spinal cord injury or comorbid traumatic brain injury, impair learning and may prevent an individual from acquiring or maintaining skills necessary to drive a powered mobility device. Standard power wheelchair training, limited by time, equipment and budget constraints, may not meet the learning needs of individuals with cognitive impairment, preventing an individual from obtaining use of a powered wheelchair, impacting independence and quality of life. The total system cost of procuring a power wheelchair can range from $10,000 - $30,000; suboptimal use resulting from inadequate training is a poor use of resources and comes at a substantial social price. The Collaborative Power mobility Innovative Learning OpporTunity (CoPILOT) is a training approach utilizing shared control wheelchair technology and allows a therapist to provide an error-free learning experience for individuals in their own environments, while maintaining safety of the user and the individuals around them. Using shared control technology, the wheelchair user remains in control of the wheelchair while learning to drive, except in cases where the trainer overrides the control (using a remote controlled interface) to maintain safety and provide targeted learning opportunities.

Purpose and Objectives: Our purpose is to obtain pilot data for a larger randomized control trial of a shared control power wheelchair training program (CoPILOT) for improving power wheelchair mobility skills among novice power wheelchair users with comorbid cognitive impairment compared to standard of care. Collection of pilot data is necessary prior to moving forward with a larger randomized controlled trial (RCT).

Hypotheses: We expect the intervention protocol will be feasible for a larger randomized control trial. Compared to the standard of care group, we expect the CoPILOT group will experience significant improvement in power wheelchair skill capacity. We also expect the CoPILOT group will experience improvements in wheelchair skill safety, confidence, capacity for divided attention tasks, and health related quality of life, compared to the standard of care participants.

Methods: Our feasibility study will use an evaluator blind parallel RCT. New power wheelchair users with mild to moderate cognitive impairment will be recruited from the GF Strong or Vancouver General Hospital Spinal Cord Injury patient population. Participants will be randomly assigned to a CoPILOT (shared control training) group or standard of care group. All training will be completed by qualified occupational therapist trainers. Participants in both groups will receive 12 hours of training in a standard powered wheelchair; however, the CoPILOT groups will use remote control technology we have developed. Post-Treatment Qualitative Interviews will be conducted. Questions will be related to protocol administration and use of the CoPILOT approach and shared control technology, including necessary modifications. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02320786
Study type Interventional
Source University of British Columbia
Contact Emma Smith, MSc OT
Phone 778 986 4038
Email smithem@alumni.ubc.ca
Status Recruiting
Phase Phase 1
Start date October 2016

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