Dame-Korevaar Anita, Fischer Egil A J, Stegeman Arjan, Mevius Dik, van Essen-Zandbergen Alieda, Velkers Francisca, van der Goot Jeanet
Department of Farm Animal Health, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands.
Department of Farm Animal Health, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands.
Vet Microbiol. 2017 May;203:211-214. doi: 10.1016/j.vetmic.2017.03.024. Epub 2017 Mar 19.
Extended-spectrum β-lactamase and plasmid mediated AmpC β-lactamase (ESBL/pAmpC) producing bacteria are resistant to Extended Spectrum Cephalosporins (ESC), and are present in all levels of the broiler production chain. We determined the prevalence, concentration, and persistence of ESBL/pAmpC-Escherichia coli in a broiler parent flock during the rearing and laying period. One-day old chickens were housed in four separate pens. Until week 33 no antibiotics or coccidiostatics were used. During rearing 57 chickens in each pen (n=228), and in the laying period two groups of 33 chickens were individually sampled (n=66). Environmental samples were taken from week 16 onwards. ESBL/pAmpC-E. coli presence was determined by selective culturing. In the samples of week 16-19 the concentration of ESBL/pAmpC-E. coli was determined. All ESC-resistant isolates found were positive for pAmpC gene bla located on IncA/C plasmids, in several E. coli MLST types. CMY-2-E. coli prevalence decreased from 91% (95%CI 86-94%) at day 7 (week 1) to 0% (95%CI 0-5%) in week 21. However, CMY-2-E. coli remained present in the environmental samples during the whole study. CMY-2-E. coli concentration varied between detection limit (<10^3) and 2·10^4 cfu/g faeces. The sharp reduction of CMY-2-E. coli in this broiler parent flock in absence of antibiotics suggests a selective disadvantage of bla on IncA/C plasmids on animal level. The underlying mechanism should be studied further as this may provide new insights on how to reduce ESBL/pAmpC prevalence and transmission in the broiler production chain.
产超广谱β-内酰胺酶和质粒介导的AmpCβ-内酰胺酶(ESBL/pAmpC)的细菌对超广谱头孢菌素(ESC)耐药,且存在于肉鸡生产链的各个环节。我们测定了肉鸡种鸡群在育雏期和产蛋期ESBL/pAmpC-大肠杆菌的流行率、浓度和持续性。1日龄雏鸡饲养在4个独立的鸡舍中。直到第33周,未使用任何抗生素或抗球虫药。育雏期间,每个鸡舍饲养57只鸡(n=228),产蛋期对两组各33只鸡进行个体采样(n=66)。从第16周开始采集环境样本。通过选择性培养确定ESBL/pAmpC-大肠杆菌的存在情况。在第16 - 19周的样本中,测定ESBL/pAmpC-大肠杆菌的浓度。所有检测到的对ESC耐药的分离株在几种大肠杆菌多位点序列分型(MLST)类型中,位于IncA/C质粒上的pAmpC基因bla均呈阳性。CMY-2-大肠杆菌的流行率从第7天(第1周)的91%(95%CI 86 - 94%)降至第21周的0%(95%CI 0 - 5%)。然而,在整个研究期间,CMY-2-大肠杆菌仍存在于环境样本中。CMY-2-大肠杆菌的浓度在检测限(<10^3)至2·10^4 cfu/g粪便之间变化。在无抗生素的情况下,该肉鸡种鸡群中CMY-2-大肠杆菌的急剧减少表明IncA/C质粒上的bla在动物水平上具有选择性劣势。其潜在机制应进一步研究,因为这可能为如何降低肉鸡生产链中ESBL/pAmpC的流行率和传播提供新的见解。
