Investigating a propagation of emerging carbapenemase-producing Enterobacteriaceae in Dutch broiler production pyramid through stochastic simulation

IF 4.1 2区 医学 Q1 INFECTIOUS DISEASES One Health Pub Date : 2024-11-26 DOI:10.1016/j.onehlt.2024.100945
N. Dankittipong , J.A. Stegeman , C.J. de Vos , J.A. Wagenaar , E.A.J. Fischer
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Abstract

Simulating resistant bacteria transmission in livestock informs surveillance strategies for emerging threats like Carbapenem-resistant Enterobacteriaceae (CPE), aiding targeted surveillance and detecting CPE through active methods. We employed a simulation model to assess three potential scenarios for introducing CPE: 1) a single import of live animals, 2) the use of contaminated feed, and 3) multiple imports of live animals. Employing the SimInf package, we constructed a population model for broiler production, encompassing rearing farms, multiplier farms, hatcheries, and broiler farms. Subsequently, we introduced CPE and allowed it to spread throughout the population using the Susceptible-Colonized (Infectious)-Susceptible model. The model ran for 10 years with 100 runs.
In the single import scenario, 1–2 rearing and multiplier farms saw major outbreaks in all 100 runs, while the broiler farm experienced major outbreaks in only 10 out of 100 runs; in the feed scenario, major outbreaks occurred in rearing farms in 32 runs and in multiplier farms in 26 runs, with major outbreaks in broiler farms observed in all 100 runs; in the multiple import scenario, outbreaks in rearing and multiplier farms happened in all 100 runs, with these major outbreaks reaching the broiler farm in 91 out of 100 runs. CPE transmission from imported or colonized broilers is rapid but short-lived within the broiler population, contrasting with the sporadic and prolonged emergence of CPE from contaminated feed, resulting in lower cumulative probabilities of detection from imported or colonized animals (0–0.50) compared to contaminated feed (0.9–0.97) over a 10-year period. Sensitivity analysis indicated that key outcomes such as farm outbreaks, chicken colonization, and outbreak duration are highly correlated with age-associated reductions in transmission (ψ).
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通过随机模拟调查荷兰肉鸡生产金字塔中新出现的产碳青霉烯酶肠杆菌的传播情况
模拟耐药菌在家畜中的传播为针对耐碳青霉烯类肠杆菌科细菌(CPE)等新出现威胁的监控策略提供信息,有助于通过主动方法进行有针对性的监控和检测 CPE。我们采用模拟模型评估了引入 CPE 的三种可能情况:1)单次进口活畜;2)使用受污染的饲料;3)多次进口活畜。我们利用 SimInf 软件包构建了肉鸡生产的种群模型,其中包括育雏场、增殖场、孵化场和肉鸡养殖场。随后,我们引入了 CPE,并使用易感-感染(传染性)-易感模型让 CPE 在整个种群中传播。该模型运行了 10 年,共运行 100 次。在单一进口情况下,1-2 个育雏场和增殖场在所有 100 次运行中都出现了重大疫情,而肉鸡场在 100 次运行中只有 10 次出现重大疫情;在饲料情况下,育雏场在 32 次运行中出现重大疫情,增殖场在 26 次运行中出现重大疫情,肉鸡场在所有 100 次运行中都出现重大疫情;在多次进口情况下,育雏场和增殖场在所有 100 次运行中都出现重大疫情,肉鸡场在 100 次运行中 91 次出现重大疫情。进口或定植的肉鸡传播 CPE 的速度很快,但在肉鸡群体中的持续时间很短,这与受污染饲料中 CPE 的零星和长期出现形成鲜明对比,导致 10 年内进口或定植动物的累计检测概率(0-0.50)低于受污染饲料的检测概率(0.9-0.97)。敏感性分析表明,农场疫情、鸡定植和疫情持续时间等关键结果与年龄相关的传播降低率(ψ)高度相关。
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来源期刊
One Health
One Health Medicine-Infectious Diseases
CiteScore
8.10
自引率
4.00%
发文量
95
审稿时长
18 weeks
期刊介绍: One Health - a Gold Open Access journal. The mission of One Health is to provide a platform for rapid communication of high quality scientific knowledge on inter- and intra-species pathogen transmission, bringing together leading experts in virology, bacteriology, parasitology, mycology, vectors and vector-borne diseases, tropical health, veterinary sciences, pathology, immunology, food safety, mathematical modelling, epidemiology, public health research and emergency preparedness. As a Gold Open Access journal, a fee is payable on acceptance of the paper. Please see the Guide for Authors for more information. Submissions to the following categories are welcome: Virology, Bacteriology, Parasitology, Mycology, Vectors and vector-borne diseases, Co-infections and co-morbidities, Disease spatial surveillance, Modelling, Tropical Health, Discovery, Ecosystem Health, Public Health.
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