Antimicrobial effect of blue light on antibiotic-sensitive and drug-resistant Escherichia coli: a novel isotropic optical fibre.

Access microbiology Pub Date : 2025-03-19 eCollection Date: 2025-01-01 DOI:10.1099/acmi.0.000967.v3

Megan H Goh, Joseph J Connolly, Antonia F Chen, Robert A Rabiner, Santiago A Lozano-Calderon

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引用次数: 0

Abstract

Background. Orthopaedic oncological pelvic reconstructions have an elevated risk of infection with Gram-negative bacteria. This study evaluates the bactericidal ability of a novel antimicrobial blue light (ABL)-emitting optical fibre on antibiotic-sensitive Escherichi coli (AS-Ec) and ESBL-producing E. coli (ESBL-Ec). Methods. Time-to-kill assays used a 10 ml NaCl solution with a starting inoculum of 1×10⁵ c.f.u. ml^-1 for AS-Ec or ESBL-Ec; assays were repeated at least three times per strain. Experimental tubes had either one optical fibre [20.1 mW mm^-1; low power (LP)] or two optical fibres [40.3 mW mm^-1; high power (HP)], which delivered five wavelengths of ABL over 60 min. Control tubes had no optical fibres. Fifty microlitres of samples taken from each tube at 0, 10, 20, 30 and 60 min were streaked onto agar plates and incubated. c.f.u. ml^-1 was determined. Bactericidal reduction was defined as a 99.9% (≥3 log₁₀) reduction in c.f.u. ml^-1. One-way ANOVA was conducted. Results. Bactericidal effects were seen for AS-Ec under both LP-ABL and HP-ABL with a log₁₀c.f.u. ml^-1±sd difference of 3.44±0.35 (P=0.043) and 3.74±0.21 (P=0.048) at 30 and 20 min, respectively. For ESBL-Ec, while there was a significant reduction in bacterial colony formation, the bactericidal threshold was not reached with a log₁₀c.f.u. ml^-1±sd difference of only 1.02±0.41 (P=0.034) and 2.53±0.22 (P=0.037) at 60 min for LP-ABL and HP-ABL, respectively. Conclusions. A novel ABL-emitting optical fibre exhibited bactericidal effects in AS-Ec and a clinically meaningful reduction of ESBL-Ec, providing a promising avenue for the use of ABL as a potential therapy for Gram-negative infections.

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背景。骨科肿瘤盆腔重建手术感染革兰氏阴性菌的风险较高。本研究评估了新型抗菌蓝光（ABL）发光光纤对抗生素敏感大肠杆菌（AS-Ec）和产ESBL大肠杆菌（ESBL-Ec）的杀菌能力。方法。时间致死试验使用 10 毫升 NaCl 溶液，AS-Ec 或 ESBL-Ec 的起始接种量为 1×105 c.f.u. ml-1；每个菌株至少重复试验三次。实验管有一根光纤[20.1 mW mm-1；低功率（LP）]或两根光纤[40.3 mW mm-1；高功率（HP）]，在 60 分钟内输送五种波长的 ABL。对照试管没有光纤。在 0、10、20、30 和 60 分钟时从每个试管中提取 50 微升样品，将其滴在琼脂平板上培养。杀菌率的定义是 c.f.u. ml-1 减少 99.9% （≥3 log10）。进行单因素方差分析。结果。AS-Ec在LP-ABL和HP-ABL下均有杀菌作用，30分钟和20分钟时的log10c.f.u. ml-1±sd差异分别为3.44±0.35（P=0.043）和3.74±0.21（P=0.048）。对于 ESBL-Ec，虽然细菌菌落形成显著减少，但并未达到杀菌阈值，60 分钟时 LP-ABL 和 HP-ABL 的 log10c.f.u. ml-1±sd 差值分别仅为 1.02±0.41 (P=0.034) 和 2.53±0.22 (P=0.037)。结论一种新型 ABL 发射光纤在 AS-Ec 中显示出杀菌效果，并在临床上减少了 ESBL-Ec，为将 ABL 用作革兰氏阴性菌感染的潜在疗法提供了一条前景广阔的途径。

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来源期刊

Access microbiology

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2.00

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0.00%

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