An antimicrobial blue light prototype device controls infected wounds in a preclinical porcine model

The Journal of Infectious Diseases Pub Date : 2024-11-13 DOI:10.1093/infdis/jiae548

Laisa Bonafim Negri, William Farinelli, Sandeep Korupolu, Ying Wang, Yara Mannaa, Hang Lee, Jie Hui, Pu-Ting Dong, Andrea Slate, Joshua Tam, R Rox Anderson, Seok-Hyun Andy Yun, Jeffrey A Gelfand

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Abstract

We developed a translational prototype antimicrobial blue light (ABL) device for treating skin wounds with ABL. Partial-thickness surgical wounds were created in live swine, an animal whose skin is considered the most like human skin, then heavily contaminated and left untreated for 24 hours with methicillin-resistant Staphylococcus aureus (MRSA). ABL treatment stabilized and reduced MRSA infection by greater than four orders of magnitude (>99.99%; p<0.0001) compared with untreated wounds in the same animal, after only two daily treatments. These data support further development of such devices for controlling infection in skin wounds. ABL, with or without concomitant administration of negative pressure, antimicrobials, or photosensitizers, could play an important role in modern wound care by reducing the amount, duration, and cost of antibiotics needed, helping reduce AMR. No such device for treating human cutaneous wounds currently exists. This deserves further development and study.

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抗菌蓝光原型装置在猪临床前模型中控制感染伤口

我们开发了一种转化型抗菌蓝光（ABL）设备，用于用 ABL 治疗皮肤伤口。我们在活猪（其皮肤被认为最像人类皮肤的动物）身上制造了部分厚度的手术伤口，然后用耐甲氧西林金黄色葡萄球菌（MRSA）对伤口进行了严重污染并放置 24 小时不处理。与同一动物未经处理的伤口相比，每天只需处理两次，ABL 治疗就能稳定并减少 MRSA 感染，减少幅度超过四个数量级（>99.99%; p<0.0001）。这些数据支持进一步开发用于控制皮肤伤口感染的设备。无论是否同时使用负压、抗菌剂或光敏剂，ABL 都能减少抗生素的用量、持续时间和成本，从而帮助减少 AMR，在现代伤口护理中发挥重要作用。目前还没有这种用于治疗人体皮肤伤口的设备。这值得进一步开发和研究。

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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The Journal of Infectious Diseases

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