Robertson Lucy J, Woolsey Ian D, Jiménez-Meléndez Alejandro
Parasitology, Faculty of Veterinary Medicine, Norwegian University of Life Sciences (NMBU), P.O. Box 5003, NO-1432 Ås, Norway.
Curr Res Parasitol Vector Borne Dis. 2024 May 22;5:100181. doi: 10.1016/j.crpvbd.2024.100181. eCollection 2024.
In 2021, the Norwegian Scientific Committee for Food and Environment published a multi-criteria risk ranking of 20 potentially food-borne pathogens in Norway. The pathogens ranked included five parasite taxa (3 species, one genus, one family): , , , spp., and Anisakidae. Two of these, and , scored very highly (1st and 3rd place, respectively), was about midway (9th place), and and Anisakidae ranked relatively low (15th and 20th place, respectively). Parasites were found, on average, more likely to present an increasing food-borne disease burden in the future than the other pathogens. Here, we review the current impact of these five potentially food-borne parasites in Norway, and factors of potential importance in increasing their future food-borne disease burden. Climate change may affect the contamination of water and fresh produce with transmission stages of the first four parasites, potentially leading to increased infection risk. Alterations in host distribution (potentially due to climate change, but also other factors) may affect the occurrence and distribution of , , and Anisakidae, and these, coupled with changes in food consumption patterns, could also affect infection likelihood. Transmission of food-borne pathogens is complex, and the relative importance of different pathogens is affected by many factors and will not remain static. Further investigation in, for example, ten-years' time, could provide a different picture of the relative importance of different pathogens. Nevertheless, there is clearly the potential for parasites to exert a greater risk to public health in Norway than currently occurs.
2021年,挪威食品与环境科学委员会发布了挪威20种潜在食源性病原体的多标准风险排名。排名的病原体包括五个寄生虫分类单元(3个物种、1个属、1个科):[具体物种1]、[具体物种2]、[具体物种3]、[属名] spp. 以及异尖线虫科。其中两种,[具体物种1]和[具体物种2]得分非常高(分别位居第1和第3),[具体物种3]大约在中间位置(第9),[属名]和异尖线虫科排名相对较低(分别为第15和第20)。与其他病原体相比,寄生虫平均而言在未来更有可能导致食源性疾病负担增加。在此,我们回顾这五种潜在食源性病原体在挪威当前的影响,以及对增加其未来食源性疾病负担具有潜在重要性的因素。气候变化可能会影响前四种寄生虫传播阶段对水和新鲜农产品的污染,从而可能导致感染风险增加。宿主分布的改变(可能是由于气候变化,但也有其他因素)可能会影响[具体物种1]、[具体物种2]和异尖线虫科的发生和分布,而这些因素与食物消费模式的变化相结合,也可能影响感染可能性。食源性病原体的传播很复杂,不同病原体的相对重要性受到多种因素影响且不会保持不变。例如,十年后的进一步调查可能会呈现出不同病原体相对重要性的不同情况。然而,显然寄生虫在挪威对公众健康构成的风险有可能比目前更大。
