European Preparedness for Japanese Encephalitis Virus Through Alignment of Animal Health Laboratory Diagnosis
Karen L. Mansfield, Insiyah Parekh, Thomas Bruun Rasmussen, Louise Lohse, Ann Sofie Olesen, Nolwenn M. Dheilly, Gaëlle Gonzalez, Camille Victoire Migné, Mathilde Gondard, Teheipuaura Helle, Tobias Lilja, Johanna F. Lindahl, Wim H. M. van der Poel, Frank Harders, Gebbiena M. Bron

TL;DR
This paper discusses how Europe is preparing for the potential spread of Japanese encephalitis virus by aligning diagnostic methods across veterinary labs.
Contribution
The study provides a collaborative framework for improving JEV detection through aligned diagnostic techniques in European labs.
Findings
Five European veterinary labs collaborated to align JEV diagnostic pipelines.
Established and new serological and molecular assays were assessed for JEV detection.
Methods for whole-genome sequencing were developed and compared.
Abstract
Outbreaks of Japanese encephalitis (JE) can have severe health and economic impacts in both humans and susceptible animal species and are estimated to cause ~68,000 human disease cases in Asia annually. The disease is caused by infection with the mosquito-borne JE virus (JEV), which continues to expand its geographical range from its endemic region in Asia. Since appropriate vertebrate host and mosquito vector species are present in Europe and average European summer temperatures continue to increase, JEV introduction could lead to the establishment of the pathogen in native mosquito species and wild birds and disease outbreaks among humans, pigs, and horses. Incursions could occur through movements of infected pigs and mosquitoes but also via migratory birds that act as reservoirs. Introduction and establishment of JEV in these populations may not be apparent at first, providing time…
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Taxonomy
TopicsMosquito-borne diseases and control · Viral Infections and Vectors · Vector-borne infectious diseases
