Are all avian influenza outbreaks in poultry the same? The predicted impact of poultry species and virus subtype

IF 2.4 2区农林科学 Q3 INFECTIOUS DISEASES

Zoonoses and Public Health Pub Date : 2024-02-16 DOI:10.1111/zph.13116

Carsten Kirkeby, Anette Boklund, Lars Erik Larsen, Michael P. Ward

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引用次数: 0

Abstract

Aims

Outbreaks of avian influenza in poultry farms are currently increasing in frequency, with devastating consequences for animal welfare, farmers and supply chains. Some studies have documented the direct spread of the avian influenza virus between farms. Prevention of spread between farms relies on biosecurity surveillance and control measures. However, the evolution of an outbreak on a farm might vary depending on the virus strain and poultry species involved; this would have important implications for surveillance systems, epidemiological investigations and control measures.

Methods and Results

In this study, we utilized existing parameter estimates from the literature to evaluate the predicted course of an epidemic in a standard poultry flock with 10,000 birds. We used a stochastic SEIR simulation model to simulate outbreaks in different species and with different virus subtypes. The simulations predicted large differences in the duration and severity of outbreaks, depending on the virus subtypes. For both turkeys and chickens, outbreaks with HPAI were of shorter duration than outbreaks with LPAI. In outbreaks involving the infection of chickens with different virus subtypes, the shortest epidemic involved H7N7 and HPAIV H5N1 (median duration of 9 and 17 days, respectively) and the longest involved H5N2 (median duration of 68 days). The most severe outbreaks (number of chickens infected) were predicted for H5N1, H7N1 and H7N3 virus subtypes, and the least severe for H5N2 and H7N7, in which outbreaks for the latter subtype were predicted to develop most slowly.

Conclusions

These simulation results suggest that surveillance of certain subtypes of avian influenza virus, in chicken flocks in particular, needs to be sensitive and timely if infection is to be detected with sufficient time to implement control measures. The variability in the predictions highlights that avian influenza outbreaks are different in severity, speed and duration, so surveillance and disease response need to be nuanced and fit the specific context of poultry species and virus subtypes.

Abstract Image

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所有家禽爆发的禽流感都一样吗？家禽种类和病毒亚型的预测影响。

目的：目前，家禽养殖场爆发禽流感的频率越来越高，对动物福利、养殖户和供应链造成了破坏性后果。一些研究记录了禽流感病毒在养殖场之间的直接传播。防止农场之间的传播有赖于生物安全监测和控制措施。然而，一个农场爆发疫情的演变过程可能因病毒株和涉及的家禽种类而异；这将对监控系统、流行病学调查和控制措施产生重要影响：在这项研究中，我们利用文献中现有的参数估计来评估一个拥有 10,000 只家禽的标准禽群的疫情预测过程。我们使用随机 SEIR 模拟模型模拟不同物种和不同病毒亚型的疫情爆发。根据病毒亚型的不同，模拟预测疫情爆发的持续时间和严重程度存在很大差异。就火鸡和鸡而言，高致病性禽流感爆发的持续时间比低致病性禽流感爆发的持续时间短。在鸡感染不同亚型病毒的疫情中，H7N7 和高致病性禽流感病毒 H5N1 的疫情持续时间最短（中位数分别为 9 天和 17 天），H5N2 的疫情持续时间最长（中位数为 68 天）。据预测，H5N1、H7N1 和 H7N3 病毒亚型的疫情（感染鸡只数）最为严重，而 H5N2 和 H7N7 病毒亚型的疫情最为轻微，其中 H7N7 病毒亚型的疫情发展最为缓慢：这些模拟结果表明，如果要在足够的时间内发现鸡群感染禽流感病毒的情况并采取控制措施，就必须对某些亚型的禽流感病毒，特别是鸡群进行敏感和及时的监测。预测结果的差异突出表明，禽流感爆发的严重程度、速度和持续时间各不相同，因此监测和疾病应对措施必须细致入微，并符合家禽物种和病毒亚型的具体情况。

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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来源期刊

Zoonoses and Public Health 医学-传染病学

CiteScore

5.30

自引率

4.20%

发文量

115

审稿时长

6-12 weeks

期刊介绍： Zoonoses and Public Health brings together veterinary and human health researchers and policy-makers by providing a venue for publishing integrated and global approaches to zoonoses and public health. The Editors will consider papers that focus on timely collaborative and multi-disciplinary research in zoonoses and public health. This journal provides rapid publication of original papers, reviews, and potential discussion papers embracing this collaborative spirit. Papers should advance the scientific knowledge of the sources, transmission, prevention and control of zoonoses and be authored by scientists with expertise in areas such as microbiology, virology, parasitology and epidemiology. Articles that incorporate recent data into new methods, applications, or approaches (e.g. statistical modeling) which enhance public health are strongly encouraged.