Impact of UV-C on material degradation: a scoping literature review.

Antimicrobial stewardship & healthcare epidemiology : ASHE Pub Date : 2025-09-02 eCollection Date: 2025-01-01 DOI:10.1017/ash.2025.10114

Daniel Suh, Stacey Hockett Sherlock, Kimberly C Dukes, Eli N Perencevich, Alexandre R Marra

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Abstract

Background: Ultraviolet-C (UV-C) radiation has emerged as a widely adopted disinfection technology in healthcare settings due to its germicidal effectiveness. However, concerns have grown regarding the potential degradation of materials, particularly polymeric surfaces, subjected to repeated UV-C exposure. Understanding the extent, mechanism, and contributing factors of UV-C-induced material degradation is essential for safe and sustainable implementation.

Methods: We conducted a scoping literature review in accordance with PRISMA guidelines to evaluate evidence on UV-C-related material degradation. Multiple databases were searched for studies published between January 1, 2000, and August 30, 2024, investigating material degradation under UV-C radiation (100-280 nm) in potentially healthcare-relevant conditions. Data abstraction captured study design, UV-C exposure characteristics, material types, degradation types, and assessment methods.

Results: Of the 56 studies reviewed, 14 met inclusion criteria. All employed experimental designs conducted in laboratory settings. UV-C exposure resulted in both visible and structural degradation of several polymeric materials. Polycarbonate, HDPE, and PLA were the most affected, exhibiting yellowing, surface cracking, and loss of mechanical strength. Degradation was time-, dose-, and distance-dependent, with longer exposure, higher irradiance, and shorter distance correlating with more severe damage. Detection methods included visual inspection, microscopy, spectroscopy, and nanoindentation. Some studies reported UV stabilizers and antioxidant additives as potential mitigation strategies.

Conclusions: UV-C radiation can cause significant degradation of commonly used polymeric materials. These findings underscore the need for careful selection of materials in UV-C environments and support further research on mitigation strategies to enhance material longevity.

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UV-C对材料降解的影响：范围文献综述。

背景：紫外线- c （UV-C）辐射由于其杀菌效果已成为医疗机构广泛采用的消毒技术。然而，人们越来越关注材料的潜在降解，特别是聚合物表面，反复暴露在UV-C下。了解uv - c诱导的材料降解的程度、机制和影响因素对于安全和可持续的实施至关重要。方法：我们根据PRISMA指南进行了范围广泛的文献综述，以评估与uv - c相关的材料降解的证据。在多个数据库中检索了2000年1月1日至2024年8月30日之间发表的研究，这些研究调查了在潜在的医疗相关条件下UV-C辐射（100-280 nm）下的材料降解。数据抽象捕获了研究设计、UV-C暴露特性、材料类型、降解类型和评估方法。结果：在56项研究中，14项符合纳入标准。所有实验设计均在实验室环境中进行。UV-C暴露导致几种聚合物材料的可见和结构降解。聚碳酸酯、HDPE和PLA受影响最大，表现为发黄、表面开裂和机械强度损失。降解与时间、剂量和距离有关，暴露时间越长，辐照度越高，距离越短，损害越严重。检测方法包括目视检查、显微镜、光谱学和纳米压痕。一些研究报告了紫外线稳定剂和抗氧化添加剂作为潜在的缓解策略。结论：UV-C辐射对常用高分子材料有明显的降解作用。这些发现强调了在UV-C环境中谨慎选择材料的必要性，并支持进一步研究减缓策略以延长材料寿命。

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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Antimicrobial stewardship & healthcare epidemiology : ASHE

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1.00

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0.00%

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