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ABSTRACT
This study aims at investigating the effects of three different wheelchair cushion technologies at the patient–wheelchair interface. To this end, eight participants were recruited to remain in an unrelieved seated position on a wheelchair successively equipped with three different cushions (foam, air-cell-based and gel), for a duration of 45 min. Interface pressure, temperature (measured with infrared thermography) and relative humidity were measured at the seat interface, at different timestamps. Experimental results show that foam cushion is significantly more efficient in reducing contact peak pressure (p < .01), while the gel cushion displays higher heat evacuation capabilities. In terms of relative humidity, no significant difference is observed among the three technologies (p > .29): all of them evacuate around only 10% of the total humidity compared to the reference situation (i.e., without cushion). Besides, a complementary numerical simulation corresponding to the steady state of the patient-wheelchair structure clearly highlights the temperature volume field at the underside of the seat, which acts like a thermal barrier and contributes to heat accumulation. Besides, an air flow at the underside of the chair in motion is shown to significantly reduce heat accumulation.
Acknowledgments
The authors wish to gratefully acknowledge the Agglomération de Châlons-en-Champagne (France), and the Pôle de Recherche Châlonnais (France) for its financial support.
Disclosure statement
The authors have no conflict of interest to declare.
Ethical approval
The authors have no competing interests and no ethical approvals were required.