Salvesen Hamish A, Whitelaw C Bruce A
The Roslin Institute and Royal (Dick) School of Veterinary Studies, University of Edinburgh, Easter Bush, Edinburgh, UK.
Porcine Health Manag. 2021 Feb 28;7(1):23. doi: 10.1186/s40813-021-00196-0.
Influenza A Viruses (IAV) are endemic pathogens of significant concern in humans and multiple keystone livestock species. Widespread morbidity in swine herds negatively impacts animal welfare standards and economic performance whilst human IAV pandemics have emerged from pigs on multiple occasions. To combat the rising prevalence of swine IAV there must be effective control strategies available.
The most basic form of IAV control on swine farms is through good animal husbandry practices and high animal welfare standards. To control inter-herd transmission, biosecurity considerations such as quarantining of pigs and implementing robust health and safety systems for workers help to reduce the likelihood of swine IAV becoming endemic. Closely complementing the physical on-farm practices are IAV surveillance programs. Epidemiological data is critical in understanding regional distribution and variation to assist in determining an appropriate response to outbreaks and understanding the nature of historical swine IAV epidemics and zoonoses. Medical intervention in pigs is restricted to vaccination, a measure fraught with the intrinsic difficulties of mounting an immune response against a highly mutable virus. It is the best available tool for controlling IAV in swine but is far from being a perfect solution due to its unreliable efficacy and association with an enhanced respiratory disease. Because IAV generally has low mortality rates there is a reticence in the uptake of vaccination. Novel genetic technologies could be a complementary strategy for IAV control in pigs that confers broad-acting resistance. Transgenic pigs with IAV resistance are useful as models, however the complexity of these reaching the consumer market limits them to research models. More promising are gene-editing approaches to prevent viral exploitation of host proteins and modern vaccine technologies that surpass those currently available.
Using the suite of IAV control measures that are available for pigs effectively we can improve the economic productivity of pig farming whilst improving on-farm animal welfare standards and avoid facing the extensive social and financial costs of a pandemic. Fighting 'Flu in pigs will help mitigate the very real threat of a human pandemic emerging, increase security of the global food system and lead to healthier pigs.
甲型流感病毒(IAV)是人类以及多种重要家畜物种中备受关注的地方性病原体。猪群中广泛发病会对动物福利标准和经济表现产生负面影响,同时人类IAV大流行曾多次源自猪群。为应对猪IAV流行率的上升,必须有有效的控制策略。
猪场控制IAV最基本的形式是通过良好的畜牧管理实践和高动物福利标准。为控制猪群间传播,诸如对猪进行隔离以及为工作人员实施健全的健康和安全系统等生物安全考量有助于降低猪IAV成为地方性疾病的可能性。与农场实际操作密切互补的是IAV监测项目。流行病学数据对于了解区域分布和变异至关重要,有助于确定对疫情的适当应对措施,并理解历史上猪IAV疫情和人畜共患病的性质。对猪的医学干预仅限于疫苗接种,这一措施因针对高度易变病毒产生免疫反应存在内在困难而充满问题。它是控制猪IAV的最佳可用工具,但由于其效力不可靠且与呼吸道疾病加重有关,远非完美解决方案。由于IAV通常死亡率较低,疫苗接种的接受度不高。新型基因技术可能是控制猪IAV的一种补充策略,可提供广泛作用的抗性。具有IAV抗性的转基因猪作为模型很有用,但这些猪进入消费市场的复杂性使其仅限于研究模型。更有前景的是防止病毒利用宿主蛋白的基因编辑方法以及超越现有技术的现代疫苗技术。
有效利用现有的针对猪的IAV控制措施套件,我们可以提高养猪业的经济生产力,同时提高农场动物福利标准,并避免面临大流行带来的广泛社会和财务成本。抗击猪流感将有助于减轻人类大流行出现的切实威胁,增强全球粮食系统的安全性,并培育更健康的猪。
