Hernández-Jover M, Schemann K, East I J, Toribio J-A L M L
Graham Centre for Agricultural Innovation (NSW Department of Primary Industries and Charles Sturt University), School of Animal and Veterinary Sciences, Locked Bag 588, Wagga Wagga, NSW 2678, Australia; The University of Sydney, Farm Animal and Veterinary Public Health, 425 Werombi Rd, Camden, NSW 2570, Australia.
The University of Sydney, Farm Animal and Veterinary Public Health, 425 Werombi Rd, Camden, NSW 2570, Australia.
Prev Vet Med. 2015 Jan 1;118(1):128-41. doi: 10.1016/j.prevetmed.2014.11.018. Epub 2014 Nov 25.
Some practices undertaken by poultry exhibitors, such as allowing wild birds to contact domestic birds, the high frequency of bird movements and the lack of appropriate isolation for incoming birds, pose a risk for disease introduction and spread. The aim of the current study was to quantitatively assess the probability of introduction of low pathogenic avian influenza (LPAI) viruses from wild waterfowl into poultry exhibition flocks and the subsequent spread to other poultry flocks. Exposure and consequence assessments, using scenario trees and Monte Carlo stochastic simulation modelling, were conducted to identify potential pathways of introduction and spread and calculate the probabilities of these pathways occurring. Input parameters were estimated from two recently conducted cross-sectional studies among poultry exhibitors in Australia (Dusan et al., 2010; Hernández-Jover et al., 2013) and other scientific literature. According to reported practices of poultry exhibitors and the LPAI prevalence in wild birds in Australia, this assessment estimates a median (5-95%) probability of exposure of a bird kept by a poultry exhibitor of 0.004 (0.003-0.005). Due to the higher susceptibility of infection of turkeys and waterfowl, this probability is higher in flocks keeping these bird species than in those keeping chickens or pigeons only. Similarly, once exposure has occurred, establishment of infection and subsequent spread are more likely in those flocks keeping waterfowl and turkeys than in those keeping chicken and pigeons only. Spread through movement of birds is the most likely pathway of spread, followed by contaminated fomites, wild birds and airborne spread. The median probability of LPAI spread through movement of birds in flocks keeping waterfowl and turkeys was estimated to be 0.280 (0.123-0.541) and 0.230 (0.104-0.421), respectively. A lower probability was estimated for chicken (0.087; 0.027-0.202) and pigeon (0.0003; 3.0×10(-5)-0.0008) flocks. The sensitivity analysis indicates that the prevalence of LPAI in wild waterfowl and the probability of contact of domestic birds with wild waterfowl are the most influential parameters on the probability of exposure; while the probability of spread is mostly influenced by the probability of movement of birds and the probability of the exhibitor detecting and reporting LPAI. To minimize the potential risk of AI introduction and spread, poultry exhibitors should prevent contact of domestic birds with wild birds, and implement appropriate biosecurity practices. In addition, adequate extension services are required to improve exhibitors' abilities to recognize diseases and reporting behaviour.
家禽参展商的一些做法,如让野生鸟类接触家禽、鸟类频繁移动以及对引入的鸟类缺乏适当隔离,会带来疾病传入和传播的风险。本研究的目的是定量评估低致病性禽流感(LPAI)病毒从野生水禽传入家禽展览鸡群并随后传播到其他家禽鸡群的可能性。利用情景树和蒙特卡洛随机模拟模型进行暴露和后果评估,以确定引入和传播的潜在途径,并计算这些途径发生的概率。输入参数是根据最近在澳大利亚家禽参展商中进行的两项横断面研究(Dusan等人,2010年;Hernández-Jover等人,2013年)以及其他科学文献估算得出的。根据家禽参展商报告的做法以及澳大利亚野生鸟类中LPAI的流行情况,该评估估计家禽参展商饲养的鸟类暴露的中位数(5-95%)概率为0.004(0.003-0.005)。由于火鸡和水禽的感染易感性较高,饲养这些鸟类品种的鸡群中这一概率高于仅饲养鸡或鸽子的鸡群。同样,一旦发生暴露,在饲养水禽和火鸡的鸡群中建立感染并随后传播的可能性比仅饲养鸡和鸽子的鸡群更高。通过鸟类移动传播是最可能的传播途径,其次是受污染的污染物、野生鸟类和空气传播。估计在饲养水禽和火鸡的鸡群中,LPAI通过鸟类移动传播的中位数概率分别为0.280(0.123-0.541)和0.230(0.104-0.421)。对鸡群(0.087;0.027-0.202)和鸽群(0.0003;3.0×10(-5)-0.0008)的估计概率较低。敏感性分析表明,野生水禽中LPAI的流行率以及家禽与野生水禽接触的概率是影响暴露概率的最具影响力的参数;而传播概率主要受鸟类移动概率以及参展商检测和报告LPAI的概率影响。为尽量减少禽流感引入和传播的潜在风险,家禽参展商应防止家禽与野生鸟类接触,并实施适当的生物安全措施。此外,需要提供充分的推广服务,以提高参展商识别疾病和报告行为的能力。
