Exploring the source of ESBL_producing Escherichia coli in a small-scale poultry farm with minimal biosecurity

Research Square (Research Square) Pub Date : 2023-11-14 DOI:10.21203/rs.3.rs-3582003/v1

Latchubhukta Sharmila, Arijit Pal, Ripan Biswas, Kunal Batabyal, Samir Dey, Siddhartha Narayan Joardar, Tapan Kumar Dutta, Samiran Bandyopadhyay, Indranil Samanta, Surajit Pal

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Abstract

Abstract Background In commercial broiler farms, the dissemination of extended-spectrum beta-lactamase (ESBL)-producing E. coli presents a significant concern. These bacteria may spread vertically from parental stock or horizontally through contaminated feed, water, and infected companion birds. Understanding the transmission dynamics of ESBL- E. coli in small-scale poultry farms in rural settings is crucial. Methods We conducted a comprehensive study on a small-scale poultry farm in West Bengal, India. A total of 120 samples were collected at three different intervals (0th, 20th, and 40th day) of the production cycle, including cloacal swabs (n = 49), drinking water (n = 36), and feed (n = 35). All E. coli isolates were tested for resistance to eight antimicrobial agents. ESBL-producing E. coli was confirmed using the double-disc test. Furthermore, we conducted PCR to detect major ESBL genes, followed by sequencing of selected PCR products. Results We recovered a total of 173 E. coli isolates from the samples. These isolates exhibited varying degrees of resistance, with 100% resistance to cefixime, 83.3% to amoxicillin, 50% to tetracycline, and 33.3% to enrofloxacin. The occurrence of ESBL- E. coli initially decreased from day-old production to the 20th day but then increased in the subsequent 21st -40th day of the production cycle. Genotyping of ESBL revealed dynamic changes, with a progressive decrease in the occurrence of blaCTX-M and blaSHV in cloacal swabs and a corresponding increase in drinking water and feed. Notably, blaCTX-M-15 emerged as the predominant resistance determinant among antibiotic-resistant genes. Conclusions Our study sheds light on the probable vertical transmission of ESBL- E. coli from the parent flock to the studied birds, with a decrease observed up to the 20th day of the production cycle. Additionally, our findings highlight drinking water as a potential source of on-farm horizontal transmission of ESBL- E. coli . To prevent the spread of antimicrobial-resistant bacteria in birds and their products, it is essential for small-scale poultry farms to adopt strict biosecurity measures and maintain high hygiene standards. These insights have critical implications for poultry farming practices and public health.

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在一个生物安全性不高的小规模家禽养殖场中探索产esbl_大肠杆菌的来源

背景在商业肉鸡养殖场中，产生广谱β -内酰胺酶(ESBL)的大肠杆菌的传播引起了人们的极大关注。这些细菌可以从亲本家畜垂直传播，也可以通过受污染的饲料、水和受感染的同伴鸟水平传播。了解ESBL-大肠杆菌在农村小型家禽养殖场的传播动态至关重要。方法对印度西孟加拉邦的一个小型家禽养殖场进行了全面研究。在生产周期的第0天、第20天和第40天三个不同的时间段共采集120份样本，包括粪拭子(n = 49)、饮用水(n = 36)和饲料(n = 35)。对所有大肠杆菌分离株进行了8种抗菌素耐药性检测。用双圆盘试验证实产esbl大肠杆菌。此外，我们进行了PCR检测ESBL的主要基因，然后对选择的PCR产物进行测序。结果共检出173株大肠杆菌。这些菌株表现出不同程度的耐药，对头孢克肟的耐药率为100%，对阿莫西林的耐药率为83.3%，对四环素的耐药率为50%，对恩诺沙星的耐药率为33.3%。产蛋第1天至第20天，ESBL-大肠杆菌的发生率呈下降趋势，但在随后的第21 ~第40天呈上升趋势。ESBL的基因分型显示出动态变化，在粪拭子中blaCTX-M和blaSHV的发生率逐渐减少，在饮用水和饲料中相应增加。值得注意的是，在抗生素耐药基因中，blaCTX-M-15成为主要的耐药决定因素。结论我们的研究揭示了ESBL-大肠杆菌可能从亲本禽群垂直传播给所研究的鸟类，并且在生产周期的第20天观察到减少。此外，我们的研究结果强调饮用水是农场内ESBL-大肠杆菌水平传播的潜在来源。为了防止抗微生物药物耐药性细菌在禽类及其产品中传播，小规模家禽养殖场必须采取严格的生物安全措施并保持高卫生标准。这些见解对家禽养殖实践和公共卫生具有重要意义。

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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