In-vitro effect of antimicrobial photodynamic therapy with methylene blue in two different genera of dermatophyte fungi

T. Spezzia-Mazzocco, S. Torres-Hurtado, J. Ramirez-San-Juan, R. Ramos-García
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引用次数: 5

Abstract

Abstract Background and objectives: Antimicrobial photodynamic therapy (aPDT) is a technique that combines the photoactivation properties of an innocuous chromophore or photosensitizer (PS) and light, producing reactive oxygen molecules that trigger cell death processes. In this study the in-vitro application of aPDT to fight fungal infections was investigated using methylene blue (MB) as the PS. Materials and methods: The antimicrobial PDT process was carried out with MB and red laser light (λ=633 nm) to activate the PS. Testing was performed with suspensions of various species of dermatophyte fungi (Trichophyton mentagrophytes, Microsporum canis and Microsporum gypseum), including a fungus, which to our knowledge, has not been previously studied using this dye (Trichophyton tonsurans). For T. tonsurans further optimization tests were carried out. Results and discussion: The fungicidal effect of MB-aPDT was evident. Microsporum strains were slightly more sensitivity to the treatment than Trichophyton strains. The response of T. tonsurans to aPDT was less than to the other fungi tested under the same conditions, or even with higher fluence. However, repetitive aPDT treatment with very low doses of light can achieve a good effectiveness with this strain effecting total growth inhibition. Light may even disturb fungi growth in some circumstances, especially in strain such as T. tonsurans. Conclusion: This study with Trichophyton and Microsporum strains showed that MB was an effective PS to inhibit fungal growth through aPDT, reaching a total inhibition in most of the fungi tested. It was found that repeated exposure with low-power light within the framework of aPDT treatment can achieve better results than a single exposure at higher power.
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亚甲基蓝抗微生物光动力疗法对两种不同属皮肤真菌的体外效果
背景和目的:抗菌素光动力疗法(aPDT)是一种结合了无害的发色团或光敏剂(PS)和光的光激活特性,产生触发细胞死亡过程的活性氧分子的技术。本研究以亚甲基蓝(MB)为PS,研究了aPDT在体外抗真菌感染中的应用。抗菌PDT过程使用MB和红色激光(λ=633 nm)来激活PS。测试使用多种皮肤真菌(Trichophyton mentagrophytes, Microsporum canis和Microsporum gypseum)的悬浮液进行,包括一种真菌,据我们所知,以前没有使用这种染料研究过(Trichophyton tonsurans)。对水蛭进行了进一步的优化试验。结果与讨论:MB-aPDT杀真菌效果明显。小孢子菌对处理的敏感性略高于毛菌。在相同条件下,T. tonsurans对aPDT的反应低于其他真菌,甚至影响更大。然而,重复的aPDT处理与非常低的光剂量可以达到良好的效果,这种菌株的总体生长抑制。在某些情况下,光线甚至会干扰真菌的生长,尤其是像T. tonsurans这样的菌株。结论:本实验对毛癣菌和小孢子菌进行了研究,结果表明,MB是一种有效的通过aPDT抑制真菌生长的PS,对大部分被试真菌均有完全抑制作用。研究发现,在aPDT治疗框架内,低功率光重复曝光比单次高功率曝光效果更好。
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