从贝哈大学医院分离的鲍曼不动杆菌菌株中的外排泵编码基因(adeA 和 adeS)与抗生素耐药性模式的关系

Amira E. Ramadan, Ahmed S. Elgazar, N. Amin, Amira H. Allam, Mai A. Elmahdy, Naglaa A. B. Eldeen, Sara A. Saied, Doaa A. Shaker
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摘要

鲍曼不动杆菌(Acinetobacter baumannii)作为一种主要的耐多药(MDR)细菌,已成为医院中一个日益严重的问题。产生耐药性的机制多种多样,其中包括外排泵,它能将抗生素向外引导,阻止抗生素对细菌产生影响。 临床样本在血琼脂和麦康凯琼脂培养基上进行培养,通过革兰氏染色和生化反应进行鉴定,然后通过 Vitek2 自动系统进行菌种鉴定。分离菌株中的 adeA 和 adeS 基因通过常规 PCR 检测。这项研究包括 50 株鲍曼尼氏菌,以评估鲍曼尼氏菌的抗生素耐药性模式。 研究发现,鲍曼尼氏菌对哌拉西林(100%)完全耐药,对亚胺培南(54%)的耐药率最低。在 50 株分离株中,41 株(82%)鲍曼氏痢疾杆菌分离株带有 adeA 基因,32 株(64%)带有 adeS 基因。具有adeA基因和adeS基因的临床菌株对环丙沙星的耐药性明显较高(分别为92.7%和100%)。此外,在庆大霉素(P = 0.065)、头孢他啶(P = 0.08)和美罗培南(P = 0.08)方面,adeA 基因阳性组的耐药性也较高。 在鲍曼不动杆菌的抗生素耐药性中,外排泵基因(adeA、adeS)发挥了关键作用。
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Efflux pumps encoding genes (adeA and adeS) in relation to antibiotic resistance pattern in Acinetobacter baumannii strains isolated from Benha university hospital
Acinetobacter baumannii become a growing problem in hospitals as a predominant multidrug-resistant (MDR). This resistance capacity is generated by various mechanisms including efflux pumps that can direct antibiotics outwards and prevent antibiotics from affecting the bacteria. Clinical samples were cultured on blood agar and MacConkey agar medium, identified by Gram stain and biochemical reactions, and then identified to the species level by Vitek2 automated system. The adeA and adeS genes among isolated strains were detected by conventional PCR. This study included 50 A. baumannii strains to assess the antibiotic resistance pattern of A. baumannii. A. baumannii strains were fully resistant to Piperacillin (100%) and lowest resistance to Imipenem (54%) was observed. Out of 50 isolates, 41 (82%) of A. baumanii isolates had adeA gene and 32 (64%) had adeS gene. The clinical strains that had adeA gene and adeS gene showed significantly higher resistance to Ciprofloxacin (92.7%) and (100%), respectively. Additionally, borderline significant differences were reported regarding Gentamycin (P = 0.065), Ceftazidime (P = 0.08), and Meropenem (P = 0.08), with the resistance being higher in the adeA positive group. Efflux pumps genes (adeA, adeS) played a key role in antibiotic resistance of A. baumanii.
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