Monitoring of Klebsiella pneumoniae as one of the criteria of microecological characterization of a water body

Hygiene and sanitation Pub Date : 2024-04-10 DOI:10.47470/0016-9900-2024-103-3-234-241

AS Kalyuzhin, Alexandra L. Bayrakova, Marina A. Morozova, N. I. Latyshevskaya, Tatyana A. Ruzhentsova

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Abstract

Introduction. Representatives of the family Enterobacteriaceae are ubiquitous in the environment, causing severe, including opportunistic diseases in immunocompromised individuals. The occurrence of antibiotic-sensitive bacteria of the Klebsiella genus within the recreational zone of a water body is potent of posing an epidemiologic danger to the inhabitants of the settlement. Materials and Methods. Water samples from the surface aquifers of the Don and Temernik rivers of Rostov-on-Don served as the material for the study. The sensitivity of isolates of Kl. pneumoniae isolates to fourteen antibacterial preparations were investigated by disk-diffusion method in accordance with the requirements of MUK 4.2.1980-04 and EUCAST v. 13.0 (2023). 13.0 (2023). Carbapenemase genes VIM, IMP, NDM, KPC, OXA-48, NDM were determined using commercial diagnostic kits AmpliSense MDR MBL-FL, AmpliSense MDR KPC/OXA-48-FL, AmpliSense MDR Ab-OXA-FL. Results. In 2022, 247 isolates of Klebsiella pneumoniae were isolated in 14 biotopes of water bodies of Rostov-on-Don. Biotopes of epidemiological significance were identified with the presence of antibiotic resistance genes in 28 isolates isolated above and below the sewage discharge site (sampling point #1 and #5) and strains isolated from the mouth of the Temernik River (sampling point #14). Phenotype of multidrug-resistant (MDR) in point No. 1 possessed 22%, point No. 5 – 26.9%, point No. 14 – 26%; phenotype of extreme drug resistance (XDR) in point No. 1 possessed 11.1 %, point No. 5 – 15.3%, point No. 14 – 13%; phenotype of pan-drug-resistant (PDR) in point No. 1 did not possess, point No. 5 – 3.8%, point No. 14 – 4.3%. Limitations. A limitation of the study is related to the location of water sampling from the river. Don and R. Temernik on the territory of Rostov-on-Don, covering from March to November 2022. In this article, we limited ourselves to sanitary-bacteriological and molecular genetic analysis. Conclusion. The detection of PDR, XDR, and MDR antibiotic-resistant phenotypes of Klebsiella pneumoniae, as well as the detection of resistance genes, indicates to an increased risk of water-associated acute intestinal infections, especially in immunosuppressed individuals.

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监测肺炎克雷伯氏菌是水体微生态特征描述的标准之一

导言。肠杆菌科细菌在环境中无处不在，可引起严重疾病，包括免疫力低下者的机会性疾病。在水体的休闲区内出现对抗生素敏感的克雷伯氏菌属细菌，可能会对居住区的居民造成流行病学上的威胁。材料与方法。研究材料取自顿河畔罗斯托夫顿河和捷梅尔尼克河地表含水层的水样。根据 MUK 4.2.1980-04 和 EUCAST v. 13.0 (2023)的要求，采用盘扩散法研究了肺炎克雷伯菌分离株对 14 种抗菌制剂的敏感性。13.0 (2023).使用商业诊断试剂盒 AmpliSense MDR MBL-FL、AmpliSense MDR KPC/OXA-48-FL、AmpliSense MDR Ab-OXA-FL 测定碳青霉烯酶基因 VIM、IMP、NDM、KPC、OXA-48、NDM。结果。2022 年，在顿河畔罗斯托夫 14 个水体生物群落中分离出 247 株肺炎克雷伯氏菌。在污水排放点上下（1 号和 5 号采样点）分离出的 28 个分离菌株以及在捷梅尼克河河口（14 号采样点）分离出的菌株中，发现了抗生素耐药基因，从而确定了具有流行病学意义的生物群落。1 号采样点的多重耐药性 (MDR) 表型占 22%，5 号采样点占 26.9%，14 号采样点占 26%；1 号采样点的极端耐药性 (XDR) 表型占 11.1%，5 号采样点占 15.3%，14 号采样点占 13%；1 号采样点的泛耐药性 (PDR) 表型不存在，5 号采样点占 3.8%，14 号采样点占 4.3%。局限性。这项研究的局限性与河水取样的地点有关。在顿河畔罗斯托夫境内的顿河和捷梅尼克河取样的时间为 2022 年 3 月至 11 月。本文仅限于卫生细菌学和分子遗传学分析。结论肺炎克雷伯氏菌耐 PDR、XDR 和 MDR 抗生素表型的检测以及耐药基因的检测表明，与水有关的急性肠道感染的风险增加，尤其是在免疫抑制人群中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hygiene and sanitation

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