PLoS ONE (Jan 2012)

Mosquito, bird and human surveillance of West Nile and Usutu viruses in Emilia-Romagna Region (Italy) in 2010.

  • Mattia Calzolari,
  • Paolo Gaibani,
  • Romeo Bellini,
  • Francesco Defilippo,
  • Anna Pierro,
  • Alessandro Albieri,
  • Giulia Maioli,
  • Andrea Luppi,
  • Giada Rossini,
  • Agnese Balzani,
  • Marco Tamba,
  • Giorgio Galletti,
  • Antonio Gelati,
  • Marco Carrieri,
  • Giovanni Poglayen,
  • Francesca Cavrini,
  • Silvano Natalini,
  • Michele Dottori,
  • Vittorio Sambri,
  • Paola Angelini,
  • Paolo Bonilauri

DOI
https://doi.org/10.1371/journal.pone.0038058
Journal volume & issue
Vol. 7, no. 5
p. e38058

Abstract

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In 2008, after the first West Nile virus (WNV) detection in the Emilia-Romagna region, a surveillance system, including mosquito- and bird-based surveillance, was established to evaluate the virus presence. Surveillance was improved in following years by extending the monitoring to larger areas and increasing the numbers of mosquitoes and birds tested.A network of mosquito traps, evenly distributed and regularly activated, was set up within the surveyed area. A total of 438,558 mosquitoes, grouped in 3,111 pools and 1,276 birds (1,130 actively sampled and 146 from passive surveillance), were tested by biomolecular analysis. The survey detected WNV in 3 Culex pipiens pools while Usutu virus (USUV) was found in 89 Cx. pipiens pools and in 2 Aedes albopictus pools. Two birds were WNV-positive and 12 were USUV-positive. Furthermore, 30 human cases of acute meningoencephalitis, possibly caused by WNV or USUV, were evaluated for both viruses and 1,053 blood bags were tested for WNV, without any positive result.Despite not finding symptomatic human WNV infections during 2010, the persistence of the virus, probably due to overwintering, was confirmed through viral circulation in mosquitoes and birds, as well as for USUV. In 2010, circulation of the two viruses was lower and more delayed than in 2009, but this decrease was not explained by the relative abundance of Cx. pipiens mosquito, which was greater in 2010. The USUV detection in mosquito species confirms the role of Cx. pipiens as the main vector and the possible involvement of Ae. albopictus in the virus cycle. The effects of meteorological conditions on the presence of USUV-positive mosquito pools were considered finding an association with drought conditions and a wide temperature range. The output produced by the surveillance system demonstrated its usefulness and reliability in terms of planning public health policies.