ProBalance

Propulsion optimization through improved seated balance in wheelchairs

This project, a collaboration between UMCG and Vicair, aims to optimize seated balance and propulsion biomechanics in wheelchair users while reducing pressure distribution and shear forces. This public-private partnership brings research and development in the field of wheelchair seating together, leverages innovations in seated balance and its quantification.

Pressure injuries affect 20-30% of wheelchair users, particularly those with spinal cord injuries and the elderly. These injuries result from prolonged immobility, inadequate pressure distribution, shear forces and comorbid conditions. Effective prevention and management are crucial to improving quality of life and reducing healthcare costs. By optimizing seated pressure distribution, the project aims to reduce skin breakdown, improve circulation, and enhance overall health. Improved pressure distribution can come at the cost of seated balance. This project aims to simultaneously address balance and pressure distribution as proper balance in a manual wheelchair is essential for safety, maneuverability, and metabolic efficiency, ultimately promoting independence and reducing the risk of overuse injuries.

The project's approach involves integrating recent measurement innovations from UMCG with Vicair's in-house technologies. The goal is to develop a test set for seated balance on the one hand, and solutions that optimize seated balance, while pressure distribution and  shear forces are not negatively affected on the other. This innovative approach is expected to significantly improve the quality of life for wheelchair users.

Key deliverables include wheelchair cushions optimized for balance and pressure distributions and a test set to quantify balance. After this development phase the innovative seating will be validated through research into pressure distribution, shear forces, propulsion biomechanics and seated balance.

ProBalance

Example of detailed biomechanical analyses during manual wheelchair propulsion.

Copyright: © 2018 Leving et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Leving MT, Vegter RJ, de Groot S, van der Woude LH. Effects of variable practice on the motor learning outcomes in manual wheelchair propulsion. J Neuroeng Rehabil. 2016 Nov 23;13(1):100. doi: 10.1186/s12984-016-0209-7. PMID: 27881124; PMCID: PMC5120477.

Summary
Pressure injuries affect 20-30% of wheelchair users, especially those with spinal cord injuries. Optimizing pressure distribution, shear forces, and seated balance improves comfort and mobility while preventing injuries. This project combines innovations to quantify and enhance balance, propulsion biomechanics, and efficiency, ultimately improving wheelchair users' independence and quality of life.
Technology Readiness Level (TRL)
5 - 7
Time period
30 months
Partners
UMCG nieuw logo