Impact of Skin Tone on Skin Tolerance to Shear in the Context of Pressure Injuries: Theory and Computer Modeling.

IF 1.7 4区医学 Q3 DERMATOLOGY

Advances in Skin & Wound Care Pub Date : 2025-03-01 DOI:10.1097/ASW.0000000000000270

Tomer Katz, Amit Gefen

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引用次数: 0

Abstract

Abstract:

Objective: To investigate the impact of darker skin tones on skin tolerance to shear forces in the context of pressure injuries (PIs) and explore the mechanobiological hypothesis that people with darker skin may be at an increased PI risk due to altered biomechanical skin properties resulting from a lower water content (WC) as some literature suggests.

Methods: The authors developed a computational modeling framework simulating skin with varying Poisson ratios to represent different WC levels in the stratum corneum (SC), focusing on the effects of ethnicity and WC on mechanical stresses in superficial skin during weightbearing postures. Mechanical properties of the tissues were based on literature values. Pure compression and compression with shear were applied to the skin model.

Results: A lower Poisson ratio in the SC, indicating lower WC, is associated with higher tissue stresses and more intense stress concentrations, especially under combined compression and shear loading. The initial reduction in the Poisson ratio had the most significant impact on increased tissue loading. These results support the hypothesis that the lower WC in darker skin, associated with increased transepidermal water loss, may lead to altered biomechanical behavior and increased PI risk.

Conclusions: The modeling suggests that reduced WC and increased transepidermal water loss, notably present in darker skin tones, lead to higher stress concentrations within the SC, thus elevating the PI risk. Comprehensive clinical and biomechanical data across various skin tones are needed to improve the practice of PI prevention in individuals with darker skin.

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摘要：目的研究深肤色在压力损伤（PIs）中对皮肤剪切力耐受性的影响，并探索机械生物学假说，即深色皮肤的人可能会增加压力损伤的风险，这是因为一些文献认为皮肤含水量（WC）较低导致皮肤生物力学特性发生了改变：作者开发了一个计算建模框架，模拟具有不同泊松比的皮肤，以表示角质层（SC）中不同的含水量水平，重点研究在负重姿势时种族和含水量对表层皮肤机械应力的影响。组织的机械性能以文献值为基础。对皮肤模型施加了纯压缩和带剪切力的压缩：结果：SC 的泊松比越低，表明 WC 越低，则组织应力越大，应力集中程度越高，尤其是在压缩和剪切联合加载的情况下。泊松比的初始降低对组织负荷增加的影响最大。这些结果支持这样的假设，即深色皮肤中较低的 WC 与经表皮失水增加有关，可能会导致生物力学行为改变和 PI 风险增加：建模结果表明，深肤色皮肤的 WC 值降低和经表皮失水增加会导致 SC 内应力浓度升高，从而增加 PI 风险。需要全面掌握不同肤色人群的临床和生物力学数据，以改进深肤色人群的 PI 预防实践。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Skin & Wound Care DERMATOLOGY-NURSING

CiteScore

2.50

自引率

12.50%

发文量

271

审稿时长

>12 weeks

期刊介绍： A peer-reviewed, multidisciplinary journal, Advances in Skin & Wound Care is highly regarded for its unique balance of cutting-edge original research and practical clinical management articles on wounds and other problems of skin integrity. Each issue features CME/CE for physicians and nurses, the first journal in the field to regularly offer continuing education for both disciplines.