Paquin Clémence, Gelis Anthony, Dubuis Laura, Ciancia Sophie, Chenu Olivier, Duprey Sonia
LBMC UMR T_9406, Univ Gustave Eiffel - Univ Claude Bernard Lyon 1, Lyon, France.
Texisense, Torcy, France.
Disabil Rehabil Assist Technol. 2025 Apr;20(3):635-643. doi: 10.1080/17483107.2024.2402812. Epub 2024 Sep 19.
Most people with a spinal cord injury are concerned by pressure injuries (PrI). Since dynamic activities may involve distributions of forces over time that are different from static and given the significant impact of PrIs on healthcare costs, it is, important to study these sitting forces. We aim to investigate sitting forces (overall normal, shear forces and Peak Pressure Index (PPI)) assessed in both able-bodied and wheelchair users (WCU) under static and dynamic conditions. Our hypothesis is that wheelchair sitting forces encountered by able-bodied participants are significantly different from those of WCUs.
An experimental seat and a pressure mapping system were used to investigate forces in two different populations, 102 able-bodied and 15 WCUs, in static conditions and during synchronised hand-cycling. The analysis includes statistical comparisons of the sitting conditions (static/dynamic) and of the populations (able-bodied/WCUs).
Significant differences in normal forces and PPI were observed between able-bodied and WCUs; conversely, differences in shear forces were non-significant. This suggests that contrary to shear forces, no conclusion on normal forces drawn from trials with healthy participants can directly be applied to WCUs. Secondly, the present results indicate significant reduced averaged: normal force, PPI, and shear forces for able-bodied performing a dynamic activity compared to static sitting. WCUs experienced non-significant lower averaged normal force and PPI but significant lower averaged shear forces.
While the present results seem to indicate lower forces for able-bodied performing a dynamic activity compared to static sitting, due to reduced averaged forces, this conclusion is less clear-cut for WCUs.
大多数脊髓损伤患者都担心发生压疮(PrI)。由于动态活动可能涉及随时间变化的力分布,这与静态情况不同,而且压疮对医疗成本有重大影响,因此研究这些坐姿受力情况很重要。我们旨在研究在静态和动态条件下,健全人和轮椅使用者(WCU)所承受的坐姿受力(总体垂直力、剪切力和峰值压力指数(PPI))。我们的假设是,健全参与者所承受的轮椅坐姿受力与轮椅使用者的受力显著不同。
使用一个实验座椅和一个压力映射系统,研究两个不同人群(102名健全人和15名轮椅使用者)在静态条件下以及同步手摇自行车运动过程中的受力情况。分析包括对坐姿条件(静态/动态)和人群(健全人/轮椅使用者)进行统计比较。
在健全人和轮椅使用者之间观察到垂直力和PPI存在显著差异;相反,剪切力的差异不显著。这表明,与剪切力不同,从健康参与者试验得出的关于垂直力的结论不能直接应用于轮椅使用者。其次,目前的结果表明,与静态坐姿相比,健全人在进行动态活动时平均垂直力、PPI和剪切力显著降低。轮椅使用者平均垂直力和PPI降低不显著,但平均剪切力显著降低。
虽然目前的结果似乎表明,与静态坐姿相比,健全人在进行动态活动时受力较小,但由于平均受力降低,这一结论对轮椅使用者来说不太明确。
