甲酸熏蒸对临床分离丝状真菌灭活效果的研究
Investigation into the Efficacy of Formic Acid Fumigation for Inactivating Clinically Isolated Filamentous Fungi.
作者信息
Yuan Kaixuan, Tian Benshun, Zhan Annan, Chen Zhuoxi, Ye Long, Ling Yong, Liu Suiling, Bai Xuejiao, Zhao Yunhu
机构信息
Department of Clinical Laboratory Medicine, Guangdong Provincial People's Hospital (Guangdong Academy of Medical Sciences), Southern Medical University, Guangzhou, Guangdong, People's Republic of China.
Faculty of Materials & Manufacturing, Beijing University of Technology, Beijing, People's Republic of China.
出版信息
Infect Drug Resist. 2025 Jul 25;18:3709-3721. doi: 10.2147/IDR.S519486. eCollection 2025.
PURPOSE
Inactivating filamentous fungi (molds) reduce toxin production and transmission. This study evaluated the efficacy of formic acid (FA) fumigation to identify optimal conditions and its effects on fungal morphology. We aim to develop an efficient inactivation protocol for molds and provide valuable insights into laboratory techniques for fungal inactivation.
METHODS
Initially, 238 clinical isolates from 23 species of molds were evaluated for the inactivation efficacy of formic acid, formaldehyde, and peracetic acid. After identifying the optimal sterilizing agent, 188 isolates from 16 clinically significant species were tested. Four concentrations (30%, 50%, 70%, and 100%) and six-time intervals (4 to 14 hours) were tested to optimize fumigation conditions. Morphological changes were analyzed using ATCC MYA-3626 as the standard strain.
RESULTS
The inactivation rates of 238 molds fumigated with formic acid, formaldehyde, and peracetic acid for 24 hours were 99.16%, 89.08%, and 90.35% ( < 0.05), indicating that formic acid was more effective than formaldehyde and peracetic acid. Subsequently, 188 isolates from 16 species were fumigated with formic acid at concentrations of 30%, 50%, 70%, and 100% for 24 hours, resulting in inactivation rate of 73.9%, 98.4%, 100%, and 100% ( < 0.05). Inactivation rate increased significantly with longer exposure times: 51.1% at 4 hours, 80.9% at 6 hours, 89.4% at 8 hours, 94.7% at 10 hours, 100% at 12 hours, and 100% after 14 hours ( < 0.05). After fumigation, ATCC MYA-3626 growth ceased. Electron microscopy revealed irregular folds and roughness on spore surfaces, as well as collapsed or dead spores.
CONCLUSION
Formic acid demonstrated superior inactivation efficacy compared to formaldehyde and peracetic acid. At a concentration of 70% and a fumigation duration of 12 hours, the inactivation of molds was most effective.
目的
灭活丝状真菌(霉菌)可减少毒素产生和传播。本研究评估了甲酸熏蒸的效果,以确定最佳条件及其对真菌形态的影响。我们旨在开发一种高效的霉菌灭活方案,并为真菌灭活的实验室技术提供有价值的见解。
方法
最初,对来自23种霉菌的238株临床分离株进行了甲酸、甲醛和过氧乙酸的灭活效果评估。在确定最佳消毒剂后,对来自16种临床重要菌种的188株分离株进行了测试。测试了四种浓度(30%、50%、70%和100%)和六个时间间隔(4至14小时)以优化熏蒸条件。以ATCC MYA-3626作为标准菌株分析形态学变化。
结果
用甲酸、甲醛和过氧乙酸熏蒸24小时后,238株霉菌的灭活率分别为99.16%、89.08%和90.35%(P<0.05),表明甲酸比甲醛和过氧乙酸更有效。随后,用浓度为30%、50%、70%和100%的甲酸对来自16个菌种的188株分离株熏蒸24小时,灭活率分别为73.9%、98.4%、100%和100%(P<0.05)。随着暴露时间延长,灭活率显著增加:4小时时为51.1%,6小时时为80.9%,8小时时为89.4%,10小时时为94.7%,12小时时为100%,14小时后为100%(P<0.05)。熏蒸后,ATCC MYA-3626停止生长。电子显微镜显示孢子表面有不规则褶皱和粗糙,以及塌陷或死亡的孢子。
结论
与甲醛和过氧乙酸相比,甲酸显示出更高的灭活效果。在浓度为70%和熏蒸持续时间为12小时时,霉菌的灭活最为有效。
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