The University of Texas at Arlington (UTA) has patented a smart seat cushion that uses changes in air pressure to redistribute body weight and help prevent the painful ulcers caused by sitting for long periods of time in a wheelchair. The same technology can be used to create prosthetic liners that adapt their shape to accommodate changes in body volume during the day and maintain a comfortable fit.
A prototype of the smart seat cushion.
Photograph courtesy of UTA.
“Pressure ulcers caused by long periods of sitting without relieving pressure at boney regions such as the tailbone frequently occur in people who spend significant amount of time on wheelchairs. In the case of prosthesis users, poor fitting of the prosthesis leads to pressure injuries for amputees that can severely affect their daily life,” said Muthu Wijesundara, PhD, co-inventor of the technology and chief research scientist at UTA’s Research Institute.
“Our technology improves on existing solutions by including real-time pressure monitoring and automated pressure modulation capabilities to help combat the formation of pressure ulcers or sores.”
When a person sits on the cushion, a network of sensors generates a pressure map and identifies vulnerable areas where pressure relief is needed. Automated pressure modulation uses this data to reconfigure the seat cushion surface to offload and redistribute pressure from sensitive areas. Additionally, the seat cushion periodically changes the pressure profile to eliminate pressure buildup over time.
The researchers demonstrated the effectiveness of the technology using healthy volunteers of different weights who assumed different positions: leaning forward, backward, and to the left or right. In all cases, the seat cushion measured the pressure immediately and automatically performed an effective pressure redistribution to offload pressure from sensitive areas.
Editor’s note: This story was adapted from materials provided by UTA.