苯甲肼和氯己定对孟加拉达卡假单胞菌临床分离株的疗效

F. Afroze, Md Zahid Hassan, Md. Zahid Hasan Rana, Shilpi Akter, Md. Imran Hossen, S. Towhid
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引用次数: 0

摘要

由于对多种抗生素的耐药性,机会致病菌铜绿假单胞菌已被认为是医院感染的主要原因。本研究报告了来自孟加拉国达卡的临床假单胞菌分离株中存在碳青霉烯耐药性基因,以及它们对一些常见消毒剂(氯化苄康和葡萄糖酸氯己定)的耐药性。23份样本来自达卡市不同地点的两家医院和一家诊断中心。其中,通过在Cetrimide琼脂上生长、标准生化测试(过氧化氢酶、氧化酶和三糖铁、尿素、硫吲哚运动培养基、赖氨酸铁琼脂、甲基红Voges Proskaeur培养基、硝酸盐、柠檬酸盐)和IasL/R基因靶向PCR,鉴定出16个分离株为假单胞菌。分子鉴定显示,其中三个分离株含有2.3kb至2.5kb的质粒。6个分离株的基因组含有编码金属β-内酰胺酶变体(德语)的blaGIM基因,但没有一个分离株对亚胺培南组抗生素(美罗培南、庆大霉素、头孢克肟、亚胺培南)产生耐药性。因此,分离株在基因上对亚胺培南组的抗生素具有抗性,但在培养中对抗生素仍然敏感。3%苄基氯化钾和0.5%葡萄糖酸氯己定在抑制假单胞菌方面具有轻微的协同作用。在代表性分离株中,它们的部分抑制浓度指数值在0.22和0.5之间。综合来看,假单胞菌属。如果一种以上合适的消毒剂联合使用,可以在体外更有效地抑制携带潜在毒力基因和亚胺培南抗性基因的分离株。
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Efficacy of Benzylkonium and Clorhexidine against Clinical Isolates of Pseudomonas Sp. from Dhaka, Bangladesh
The opportunistic pathogen Pseudomonas aeruginosa has been recognized as a major cause of nosocomial infection due to resistance to multiple classes of antibiotics. This study reports presence of carbapenem resistance genes in clinical Pseudomonas isolates from Dhaka, Bangladesh, as well as their resistance to some common disinfectants (benzylkonium chloride and chlorhexidine gluconate).  Twenty three samples were collected from two hospitals and one diagnostic center from different locations in Dhaka city. Among these, 16 isolates were identified as Pseudomonas sp. from growth on Cetrimide Agar, standard biochemical tests (catalase, oxidase and triple sugar iron, urea, Sulphur Indole Motility medium, Lysine Iron Agar, Methyl Red-Voges Proskaeur medium, nitrate, citrate) and IasL/R-gene targeted PCR. Molecular characterization revealed three of the isolates contained 2.3kb to 2.5 kb plasmids. The genome of 6 isolates contained blaGIM gene encoding metallo-beta-lactamase variant (German), but none of isolates were resistant against imipenem group of antibiotics (meropenem, gentamicin, cefixime, imipenem). Therefore the isolates are genetically potent to resist antibiotics belonging to imipenem group, but are still sensitive to the antibiotics in culture.  3% Benzylkonium chloride and 0.5% chlorhexidine gluconate has slightly synergistic effect in inhibiting Pseudomonas sp. in representative isolates as their Fractional Inhibitory Concentration Index value ranges between 0.22 and 0.5. Taken together, Pseudomonas sp. isolates harboring potential virulent genes and imipenem-resistance genes could be inhibited more effectively in vitro if more than one suitable disinfectants are applied combinedly.
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