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患者卧床移动如何影响骶部软组织的受力,从而影响医院获得性压疮的风险。

How patient migration in bed affects the sacral soft tissue loading and thereby the risk for a hospital-acquired pressure injury.

机构信息

Department of Biomedical Engineering, Faculty of Engineering, Tel Aviv University, Tel Aviv, Israel.

Research and Development, HillRom Inc., Batesville, Indiana.

出版信息

Int Wound J. 2020 Jun;17(3):631-640. doi: 10.1111/iwj.13316. Epub 2020 Feb 11.

DOI:10.1111/iwj.13316
PMID:32048476
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7217162/
Abstract

Head-of-bed (HOB) elevation is a common clinical practice in hospitals causing the patient's body to slide down in bed because of gravity. This migration effect likely results in tissue shearing between the sacrum and the support surface, which increases the risk for pressure injuries. StayInPlace (HillRom Inc.) is a commercial migration-reduction technology (MRT) incorporated in intensive care bedframes. Yet, the effects of migration-reduction on tissue shear stresses during HOB elevation are unknown. We analysed relationships between migration and resulting sacral soft tissue stresses by combining motion analysis and three-dimensional finite element modelling of the buttocks. Migration data were collected for 10 subjects, lying supine on two bedframe types with and without MRT, and at HOB elevations of 45°/65°. Migration data were used as displacement boundary conditions for the modelling to calculate tissue stress exposures. Migration values for the conventional bed were 1.75- and 1.6-times greater than those for the migration-reduction bed, for elevations of 45° and 65°, respectively (P < .001). The modelling showed that the farther the migration, the greater the tissue stress exposures. Internal stresses were 1.8-fold greater than respective skin stresses. Our results, based on the novel integrated experimental-computational method, point to clear biomechanical benefits in minimising migration using MRT.

摘要

床头抬高是医院的常见临床实践,由于重力作用,患者的身体会在床下滑移。这种迁移效应可能导致骶骨和支撑面之间的组织剪切,增加压力性损伤的风险。StayInPlace(HillRom Inc.)是一种商业性的迁移减少技术(MRT),整合在重症监护病床框架中。然而,床头抬高时迁移减少对组织剪切应力的影响尚不清楚。我们通过结合臀部的运动分析和三维有限元建模来分析迁移与骶骨软组织应力之间的关系。对 10 名受试者进行了迁移数据采集,他们仰卧在具有和不具有 MRT 的两种床架上,床头抬高 45°/65°。将迁移数据用作建模的位移边界条件,以计算组织应力暴露。对于 45°和 65°的抬高角度,常规床的迁移值比迁移减少床分别大 1.75 倍和 1.6 倍(P < 0.001)。建模表明,迁移得越远,组织应力暴露得越大。内部应力比相应的皮肤应力大 1.8 倍。我们的结果基于新颖的集成实验计算方法,表明使用 MRT 最小化迁移具有明显的生物力学益处。

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Adv Skin Wound Care. 2019 Jul;32(7S Suppl 1):S4-S13. doi: 10.1097/01.ASW.0000558695.68304.41.
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The biomechanical protective effects of a treatment dressing on the soft tissues surrounding a non-offloaded sacral pressure ulcer.
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Sensors (Basel). 2024 Oct 9;24(19):6483. doi: 10.3390/s24196483.
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Nurs Open. 2024 Feb;11(2):e2103. doi: 10.1002/nop2.2103.
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