Abstract
Purpose
Functional electrical stimulation (FES), through repetitive training (FES-therapy) or continuous assistance (neuro-prosthesis), can restore motor function after paralysis due to spinal cord injury or stroke. With current technology, patients are often incapable of independently applying FES, thereby limiting its use. Novel FES-garments with embedded stimulation electrodes were developed in collaboration with Myant, Canada, to address this problem. The purpose of this study was to collect the views of future end-users to inform the refinement of the device design and to obtain insights on subsequent commercialization of this rehabilitation and assistive technology.
Methods
A qualitative study was undertaken to determine the needs of potential users (patients and clinicians; n = 19). Participant took part in interviews or focus groups after a presentation of the garments. An inductive content analysis was used to generate the themes from the data and identify data saturation.
Results
The identified themes and sub-themes were: (1) User Perspectives: users' characteristics (needs, limitations), expected benefits (beliefs), and anticipated problems (fears); (2) Device Design: technical features, usability, and disadvantages of the garment, cables, stimulator, software, and interface; (3) Acquisition Process: organizational procedures (acquisition and adoption steps); and (4) Business Model: financial and strategic aspects to facilitate commercialization and support users.
Conclusions
The insights obtained from end-users and clinicians provide guidelines to optimize the development of novel FES-garments, and strategies for bringing the device to the market. The themes identified can serve to inform other rehabilitation and assistive technology developers with processes and ideas on how to meet these groups’ needs.
Participants with neurological paralysis have interest and critical views on new rehabilitation and assistive technology, and the repercussions of using new technologies to address their function, health and wellbeing.
The FES-garment design presented appeared acceptable to the end-users, pending resolution of certain shortcomings (wiring, operating duration, robustness, easiness to don and doff).
End-users and clinicians had specific views regarding the acquisition process of new technologies (training, customization, and follow-up/support), which are important to take into consideration to ensure broad stakeholders uptake.
IMPLICATIONS FOR REHABILITATION
Acknowledgements
This study was supported by a Strategic Investment Program grant from AGEWELL, a Network of Center of Excellence from the Government of Canada, as well as Dean Connor and Maris Uffelmann Donation and Walter and Maria Schroeder Institute.
The findings within this paper were previously presented at AGE-WELL's 4th Annual Conference, Innovation in Action, Vancouver, Canada.
Dr Bastien Moineau was supported by AGEWELL (Strategic Investment Program), Spinal Cord Injury Ontario, and MITACS Accelerate program.
Disclosure statement
Bastien Moineau is a MITACS intern at Myant Inc., the company manufacturing the textile-based technologies discussed here, as part of his post-doctoral fellowship with Dr. Milos R. Popovic at the University of Toronto. Milos R. Popovic is CTO of MyndTec Inc., a company manufacturing stimulators for functional electrical stimulation.