Er: YAG激光对单种念珠菌生物膜消毒效果的体外研究

IF 2.5 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Dentistry Journal Pub Date : 2025-02-19 DOI:10.3390/dj13020088

Diana Dembicka-Mączka, Małgorzata Kępa, Jakub Fiegler-Rudol, Zuzanna Grzech-Leśniak, Jacek Matys, Kinga Grzech-Leśniak, Rafał Wiench

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Er:YAG laser irradiation was applied in a single pulse mode, 30 to 400 mJ, to 32 predetermined points. The growth inhibition zones (GIZs) were measured at 24-96 h of incubation. Second part: biofilms were prepared similarly and, after 96 h of incubation, exposed to Er:YAG laser irradiation at different energies (50, 100, 150, 200 mJ) for 180 s, per 1.44 cm area. Post-irradiation, impressions were taken using Rodac Agar to determine yeast counts. The count of colony-forming units (CFU) after irradiation was measured and results were analysed statistically. Results: First part: GIZ was found in all irradiated sites, with various Candida strains. The results showed a significant increase in the width of GIZ in the energy range of 30-280 mJ and a non-significant increase in the energy range of 300-400 mJ. 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引用次数: 0

摘要

背景/目的：口腔念珠菌病是由念珠菌引起的机会性感染。最近，由于酵母菌耐药性，抗真菌药物已经变得不那么有效，强调需要新的治疗策略。本研究旨在评估Er:YAG激光对成熟单种念珠菌生物膜生长和消除的影响。方法：利用在Sabouraud葡萄糖琼脂（SDA）上组织成单种生物膜的白色念珠菌（C. albicans）、光秃念珠菌（C. glabrata）、傍孢念珠菌（C. parapsilosis）和克鲁塞念珠菌（C. krusei）作为对照菌株进行研究。第一部分：将念珠菌悬液（0.5 McFarland标准）铺在SDA板上，每个菌株两个。Er:YAG激光以30 ~ 400 mJ的单脉冲模式照射32个预定点。培养24 ~ 96 h时测定生长抑制带（GIZs）。第二部分：同样制备生物膜，孵育96 h后，以不同能量（50、100、150、200 mJ）的Er:YAG激光照射180 s，每1.44 cm面积。辐照后，用Rodac琼脂进行印迹测定酵母计数。测定辐照后菌落形成单位（CFU）计数，并对结果进行统计学分析。结果：第一部分：在所有辐照部位均可见到GIZ，并有不同的念珠菌菌株。结果表明，在30 ~ 280 mJ能量范围内，GIZ宽度显著增加，而在300 ~ 400 mJ能量范围内，GIZ宽度增加不显著。第二部分：无论测试哪种念珠菌菌株，150 mJ能量辐照生物膜后剩余的CFU数量与50、100、200 mJ能量辐照后的结果有统计学差异。结论：Er:YAG具有良好的消毒性能（即使在低能量剂量（50 mJ）下也能抑制生物膜的生长，而在150 mJ能量剂量下杀灭成熟的念珠菌生物膜效果最好）。

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Evaluation of the Disinfection Efficacy of Er: YAG Laser Light on Single-Species Candida Biofilms-An In Vitro Study.

Background/Objectives: Oral candidiasis is an opportunistic infection caused by Candida species. Recently, antifungal drugs have become less effective due to yeast resistance, emphasizing the need for new treatment strategies. This study aimed to assess the effect of the Er:YAG laser on the inhibition of growth and elimination of mature single-species Candida biofilms. Methods: The study utilized reference strains of C. albicans, C. glabrata, C. parapsilosis, and C. krusei organized in single-species biofilms on Sabouraud dextrose agar (SDA). First part: Candida suspensions (0.5 McFarland standard) were spread on SDA plates-two for each strain. Er:YAG laser irradiation was applied in a single pulse mode, 30 to 400 mJ, to 32 predetermined points. The growth inhibition zones (GIZs) were measured at 24-96 h of incubation. Second part: biofilms were prepared similarly and, after 96 h of incubation, exposed to Er:YAG laser irradiation at different energies (50, 100, 150, 200 mJ) for 180 s, per 1.44 cm area. Post-irradiation, impressions were taken using Rodac Agar to determine yeast counts. The count of colony-forming units (CFU) after irradiation was measured and results were analysed statistically. Results: First part: GIZ was found in all irradiated sites, with various Candida strains. The results showed a significant increase in the width of GIZ in the energy range of 30-280 mJ and a non-significant increase in the energy range of 300-400 mJ. Second part: the number of CFU remaining after the irradiation of biofilms with 150 mJ energy differed statistically significantly from other results obtained after using 50, 100, or 200 mJ energy, regardless of the Candida strain tested. Conclusions: The Er:YAG is shown to have good disinfecting properties (inhibiting biofilm growth, even at low-energy doses (50 mJ), and eliminating maturity, Candida spp. biofilms most effective on the 150 mJ energy dose).