肿瘤患者分离酵母的表型和基因型多样性及其环境和抗真菌敏感性模式

Q2 Agricultural and Biological Sciences Biodiversitas Pub Date : 2023-08-06 DOI:10.13057/biodiv/d240761
ZAHRAA DAWOOD GATEA AL-DARRAJI, MOHANAD KHALAF MOHAMMED-AMEEN
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摘要

摘要Al-Darraji ZDG, mohammad - ameen MKM。2023. 肿瘤患者分离酵母的表型和基因型多样性及其环境和抗真菌敏感性模式。生物多样性,24:4166-4174。本研究旨在调查853份样本中酵母菌的多样性及其抗真菌敏感性模式,这些样本来自癌症患者、其表面健康的伴侣、他们的床、桌子和医院室内空气。利用经典表型特征和利用扩增rRNA ITS保守区域的分子方法培养和鉴定样品。表型分型和基因分型鉴定结果表明,102株酵母菌分离株包括6属14种。念珠菌属(Candida sp.)为优势属(84.31%),Naganishia sp.次之(10.78%)。白色念珠菌(24.50%)和克氏念珠菌(16.66%)是最常见的酵母菌种。氟康唑、卡泊真菌素和伏立康唑对大多数酵母菌都有较强的抑菌活性,其最低抑菌浓度(MIC)值较低,而对吉列蒙氏Meyerozyma guilliermondi、Naganishia difflunes和C. tropicalis的最低抑菌浓度(MIC)值较高(64µg/mL)。综上所述,抗真菌活性具有分离和种特异性,抗真菌浓度越高,活性表达速度越快。病床和桌子上酵母菌的高分离率提倡使用各种监测系统,以确保彻底清洁和持续消毒患者和卫生保健提供者周围的表面。研究结果表明,分子法在鉴定酵母菌分离株方面优于表型法。虽然类似的研究已经在不同的地方进行,但目前的项目代表了这个特定机构的一个独特的里程碑,并提供了一个推进这一领域研究的机会。
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Phenotypic and genotypic diversity of yeast isolated from cancer patients and their environment and their antifungal sensitivity pattern
Abstract. Al-Darraji ZDG, Mohammed-Ameen MKM. 2023. Phenotypic and genotypic diversity of yeast isolated from cancer patients and their environment and their antifungal sensitivity pattern. Biodiversitas 24: 4166-4174. This study aimed to investigate yeast diversity and their antifungal susceptibility patterns in 853 samples collected from cancer patients, their apparently healthy companions, their beds, their tables, and indoor hospital air. The samples were cultured and identified using classical phenotypic characteristics and a molecular method utilizing amplification of ITS conservative regions of rRNA. The sum of phenotyping and genotyping identification revealed that 102 yeast isolates included 6 genera and 14 species. Candida sp. was the most dominant genera (84.31%), followed by Naganishia sp. (10.78%). Candida albicans (24.50%) and C. krusei (16.66%) were the most prevalent yeast species. Fluconazole, caspofungin, and voriconazole exhibited potent antifungal activities against the most yeast species with low minimum inhibitory concentration (MIC) values compared with high MIC (64 µg/mL) values against Meyerozyma guilliermondi, Naganishia difflunes, and C. tropicalis. To conclude, the antifungal activity was isolate- and species-specific and the higher antifungal concentrations led to a more-rapid expression of activity. The high isolation rate of yeasts from beds and tables, advocated the use of various monitoring systems to ensure thorough cleaning and consistent disinfection of surfaces around patients and health care providers. The study findings showed that the molecular method was superior to the phenotyping technique in identifying yeast isolates. While similar research has been performed in different locations, the current project represents a unique milestone for this particular institution, and offers an opportunity to advance research in this area.
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来源期刊
Biodiversitas
Biodiversitas Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
2.80
自引率
0.00%
发文量
471
审稿时长
6 weeks
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