Multi-drug Resistance, β-Lactamases Production, and Coexistence of bla NDM-1 and mcr-1 in Escherichia coli Clinical Isolates From a Referral Hospital in Kathmandu, Nepal.

Bhimarjun Bhusal, Bindeshwar Yadav, Prabin Dawadi, Komal Raj Rijal, Prakash Ghimire, Megha Raj Banjara
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Abstract

The ability of pathogenic Escherichia coli to produce carbapenemase enzymes is a characteristic that allows them to resist various antibiotics, including last-resort antibiotics like colistin and carbapenem. Our objectives were to identify rapidly developing antibiotic resistance (AR), assess β-lactamases production, and detect mcr-1 and bla NDM-1 genes in the isolates. A prospective cross-sectional study was carried out in a referral hospital located in Kathmandu from November 2019 to December 2020 using standard laboratory and molecular protocols. Among 77 total E. coli isolates, 64 (83.1%) of them were categorized as MDR. Phenotypically 13 (20.3%) colistin-resistant, 30 (46.9%) ESBL and 8 (12.5%) AmpC producers, and 5 (7.8%) ESBL/AmpC co-producers were distributed among MDR-E. coli. Minimum inhibitory concentrations (MIC) against the majority of MDR isolates were exhibited at 1 g/L. Of these 77 E. coli isolates, 24 (31.2%) were carbapenem-resistant. Among these carbapenem-resistant bacteria, 11 (45.9%) isolates were reported to be colistin-resistant, while 15 (62.5%) and 2 (8.3%) were MBL and KPC producers, respectively. Out of 15 MBL producers, 6 (40%) harbored bla NDM-1, and 8 (61.5%) out of 13 colistin-resistant pathogens possessed mcr-1. The resistance by colistin- and carbapenem were statistically associated (P < .001). However, only 2 (18.2%) of the co-resistant bacteria were found to have both genes. Our study revealed the highly prevalent MDR and the carbapenem-resistant E. coli and emphasized that the pathogens possess a wide range of capabilities to synthesize β-lactamases. These findings could assist to expand the understanding of AR in terms of enzyme production.

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尼泊尔加德满都一家转诊医院临床分离的大肠杆菌多药耐药、β-内酰胺酶产生和bla NDM-1和mcr-1共存
致病性大肠杆菌产生碳青霉烯酶的能力是一种特性,使它们能够抵抗各种抗生素,包括最后的抗生素,如粘菌素和碳青霉烯。我们的目标是鉴定快速发展的抗生素耐药性(AR),评估β-内酰胺酶的产生,并检测分离株中的mcr-1和bla NDM-1基因。2019年11月至2020年12月,在加德满都的一家转诊医院采用标准实验室和分子方案进行了一项前瞻性横断面研究。77株大肠杆菌中64株(83.1%)为耐多药。耐粘菌素耐药菌株13例(20.3%),ESBL菌株30例(46.9%),AmpC菌株8例(12.5%),ESBL/AmpC共菌株5例(7.8%)。杆菌。对大多数MDR菌株的最低抑菌浓度(MIC)为1 g/L。在这77株大肠杆菌中,有24株(31.2%)对碳青霉烯耐药。在这些碳青霉烯类耐药菌中,11株(45.9%)对粘菌素耐药,15株(62.5%)和2株(8.3%)分别产生MBL和KPC。在15个MBL生产者中,6个(40%)携带bla NDM-1, 13个粘菌素耐药病原体中8个(61.5%)携带mcr-1。粘菌素耐药与碳青霉烯耐药有统计学意义(P . E.)。并强调病原菌具有广泛的合成β-内酰胺酶的能力。这些发现有助于从酶产生的角度扩展对AR的理解。
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