Evaluation of Shear Force Redistribution and Microclimate in Foam Dressings Indicated for Pressure Injury Prevention.

IF 1.7 4区医学 Q3 DERMATOLOGY

Advances in Skin & Wound Care Pub Date : 2025-04-03 DOI:10.1097/ASW.0000000000000295

Sandra Guzman, Kasey Call, Marianne Russon, Susan Jellum, Jordan Fisk, Evan Call

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引用次数: 0

Abstract

Objective: To understand the performance of a border and silicone version of a next-generation multilayered foam dressing (dressings A and B) compared with three commercially available wound dressings (dressings C, D, and E) in bench tests relevant for pressure injuries.

Methods: Two methods were used. The first measured shear force transmission through dressings in low- and high-shear force scenarios compared with a control with no dressing. The second measured the dressings' microclimate (heat and moisture) compared with two controls: one with high moisture output and one with no moisture output. Statistical significance was determined using a 95% CI and t test with α = .05.

Results: In the low-shear scenario, dressing A showed the lowest force transmission, whereas dressing B was not significantly different from dressings C and E. In the high-shear scenario, dressing D had a significantly higher percentage of transmitted forces compared with the other dressings, with dressing A showing the lowest force transmission but no significant differences among the other three dressings. Regarding microclimate, dressing A showed no significant difference in relative humidity in the dressing-indenter and dressing-surface interfaces, suggesting good breathability. Dressing E had the highest temperature at the indenter-dressing interface, significantly different from the other dressings (P < .05).

Conclusions: The study found that a next-generation foam dressing (dressing A) had better breathability and lower shear force transmission than other available dressings. This study emphasized the importance of understanding the physical properties of dressings to choose the most appropriate product based on individual patient needs, wound characteristics, and environmental conditions.

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泡沫敷料中剪切力重分布及微气候对预防压力损伤的影响。

目的：了解新一代多层泡沫敷料（敷料a和B）的边界和硅胶版本与三种市售伤口敷料（敷料C、D和E）在与压力损伤相关的台架试验中的性能。方法：采用两种方法。首先测量了在低剪切力和高剪切力情况下通过敷料的剪切力传递，并与没有敷料的对照组进行了比较。第二组测量敷料的小气候（热量和水分），并与两组对照进行比较：一组有高水分输出，另一组没有水分输出。统计学意义采用95% CI和t检验，α = 0.05。结果：在低剪切情况下，敷料A的传力最低，而敷料B与敷料C和e的传力比例无显著差异。在高剪切情况下，敷料D的传力比例明显高于其他敷料，其中敷料A的传力最低，但与其他三种敷料之间无显著差异。在小气候方面，敷料A与压头、敷料面界面的相对湿度差异不显著，透气性良好。敷料E在压痕-敷料界面处温度最高，与其他敷料差异有统计学意义（P < 0.05）。结论：研究发现新一代泡沫敷料（敷料a）具有较好的透气性和较低的剪切力传递。这项研究强调了了解敷料的物理特性的重要性，以便根据患者的个人需求、伤口特征和环境条件选择最合适的产品。

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.