Biocide Tolerance, Biofilm Formation, and Efflux Pump Activity in Clinical Isolates of Trichosporon asahii.

IF 2.4 Q2 INFECTIOUS DISEASES

Infectious Disease Reports Pub Date : 2025-08-06 DOI:10.3390/idr17040097

Yasmim Passos Lima, Jamile de Paiva Macedo, Alessandra Barbosa Ferreira Machado, Cláudio Galuppo Diniz, Vania Lucia da Silva, Vanessa Cordeiro Dias

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Abstract

Background: Trichosporon spp. are opportunistic fungi, capable of causing infection, especially in critically ill individuals who often use broad-spectrum antibiotics, invasive devices, and have comorbidities. Objectives The aim of this study was to analyze individuals' clinical characteristics, evaluate tolerance to biocides, as well as biofilm formation and efflux pump activity in isolates of Trichosporon asahii.

Methods: Clinical isolates of T. asahii collected between 2020 and 2023 from both hospitalized and non-hospitalized individuals, of both sexes, regardless of age, were tested for tolerance to sodium hypochlorite, hydrogen peroxide, benzalkonium chloride, and ethyl alcohol. Efflux pump activity was also assessed using ethidium bromide, and biofilm formation was measured with the Safranin test. Clinical parameters such as outcomes, source, and length of hospitalization were analyzed through electronic medical records.

Results: A total of 37 clinical isolates of T. asahii were identified. Thirty-three (83.8%) isolates were from hospitalized individuals, with 81.82% collected in ICUs, an average hospital stay of 35 days, and a mortality rate of 51.6%. The tested strains displayed the largest mean inhibition zone for 2% sodium hypochlorite, indicating lower tolerance. A high level of efflux pump expression was detected among clinical isolates. Biofilm formation was detected in 25/67.5% of the isolates.

Conclusions: These findings highlight the clinical relevance of T. asahii, particularly in critically ill individuals, and underscore the pathogen's ability to tolerate biocides, express efflux pumps, and form biofilms, all of which may contribute to its persistence and pathogenicity in hospital environments. Enhanced surveillance and effective microbial control measures are essential to mitigate the risks associated with T. asahii infections.

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临床分离朝日三磷虫的杀菌剂耐受性、生物膜形成和外排泵活性。

背景：Trichosporon是一种机会性真菌，能够引起感染，特别是在经常使用广谱抗生素、侵入性器械和有合并症的危重患者中。目的分析朝日毛磷虫的个体临床特征，评价其对杀菌剂的耐受性，以及生物膜的形成和外排泵的活性。方法：从2020年至2023年住院和非住院个体中采集的临床分离的asahi T.，不分性别，不分年龄，检测对次氯酸钠、过氧化氢、苯扎氯铵和乙醇的耐受性。用溴化乙锭评估外排泵的活性，用红花素试验测量生物膜的形成。通过电子病历分析临床参数，如结局、来源和住院时间。结果：共分离到37株朝日弓形虫临床分离株。分离株33株（83.8%）来自住院个体，其中81.82%来自icu，平均住院时间为35 d，死亡率为51.6%。受试菌株对2%次氯酸钠的平均抑制范围最大，表明其耐受性较低。在临床分离株中检测到高水平的外排泵表达。在25/67.5%的分离菌中检测到生物膜形成。结论：这些发现强调了朝日肠杆菌的临床相关性，特别是在危重患者中，并强调了病原体耐受杀菌剂、表达外排泵和形成生物膜的能力，所有这些都可能有助于其在医院环境中的持久性和致病性。加强监测和有效的微生物控制措施对于减轻与朝日肠杆菌感染相关的风险至关重要。

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