Sopher Ran, Nixon Jane, Gorecki Claudia, Gefen Amit
Department of Biomedical Engineering, Faculty of Engineering, Tel Aviv University, Tel Aviv 69978, Israel.
J Biomech Eng. 2011 Feb;133(2):021011. doi: 10.1115/1.4003325.
Sitting-acquired deep tissue injury (DTI) is a severe form of pressure ulcer (PU) often affecting patients with spinal cord injury (SCI) who also tend to suffer from intramuscular fat infiltration, soft tissue scarring (due to previous PU), and/or muscle spasticity in their buttocks. We previously used finite element (FE) modeling to evaluate whether abnormal bodyweight is a risk factor for sitting-acquired DTI. Here we hypothesize that fat infiltration, scarring, or spasms increase internal loads in the gluteus muscles in the vicinity of the ischial tuberosities during sitting, which consequently put SCI patients with these conditions at a higher risk for DTI. Our objective was to determine changes in gluteal strains and stresses and tissue volumes exposed to elevated strains/stresses associated with these factors. Thirty-five FE models of coronal slices through the seated buttocks, simulating these conditions at different severities, were developed. We calculated peak strains and stresses in glutei and percentage volumes of muscle tissue exposed to above-critical strains/stresses (compression strain≥50%, compression/von Mises stress≥2 kPa, and strain energy density≥0.5 kPa). Progressive intramuscular fat infiltration increased all the aforementioned outcome measures. Increase in size of scar patterns that were contained in both muscle and fat tissues similarly elevated the outcome measures. Spasms increased muscle stresses and volumetric exposures to stress, but tissue volumes at risk were ∼1-2% and increases due to spasticity were slight. We conclude that the above potential risk factors can be listed according to the following order of importance: (i) fat infiltration, (ii) scars contained in both muscle and fat tissues, and (iii) spasms. This information should be considered when prioritizing prevention means and resources for patients with SCI.
坐姿引发的深部组织损伤(DTI)是压疮(PU)的一种严重形式,常影响脊髓损伤(SCI)患者,这些患者臀部还往往存在肌内脂肪浸润、软组织瘢痕形成(由于既往有压疮)和/或肌肉痉挛。我们之前使用有限元(FE)建模来评估异常体重是否是坐姿引发DTI的危险因素。在此,我们假设脂肪浸润、瘢痕形成或痉挛会增加坐位时坐骨结节附近臀肌的内部负荷,从而使患有这些病症的SCI患者发生DTI的风险更高。我们的目的是确定与这些因素相关的臀肌应变和应力以及暴露于高应变/应力下的组织体积的变化。我们建立了35个通过坐位臀部冠状切片的有限元模型,模拟不同严重程度的这些情况。我们计算了臀肌的峰值应变和应力以及暴露于临界以上应变/应力(压缩应变≥50%、压缩/冯·米塞斯应力≥2 kPa和应变能密度≥0.5 kPa)的肌肉组织的体积百分比。进行性肌内脂肪浸润增加了所有上述结果指标。肌肉和脂肪组织中均含有的瘢痕模式大小增加同样提高了结果指标。痉挛增加了肌肉应力和应力的体积暴露,但有风险的组织体积约为1 - 2%,且因痉挛导致的增加幅度较小。我们得出结论,上述潜在危险因素可按以下重要性顺序列出:(i)脂肪浸润,(ii)肌肉和脂肪组织中均含有的瘢痕,(iii)痉挛。在为SCI患者确定预防手段和资源的优先级时,应考虑这些信息。
