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. 2024 Jun 10;10(12):e32767.
doi: 10.1016/j.heliyon.2024.e32767. eCollection 2024 Jun 30.

Contamination source identification for the prompt management of a gastroenteritis outbreak caused by norovirus in drinking water in Northern Italy

Sara Arnaboldi  1 Francesco Righi  1 Lucia Mangeri  1 Elisa Galuppini  1 Barbara Bertasi  1 Guido Finazzi  1   2 Giorgio Varisco  1 Stefania Ongaro  3 Camillo Gandolfi  3 Rossella Lamera  3 Paolo Amboni  3 Elena Rota  3 Deborah Balbino  3 Constanza Colombo  3 Martina Gelmi  3 Alessandra Boffelli  3 Serena Gasparri  3 Virginia Filipello  1 Marina-Nadia Losio  1
Affiliations

Contamination source identification for the prompt management of a gastroenteritis outbreak caused by norovirus in drinking water in Northern Italy

Sara Arnaboldi et al. Heliyon. .

Abstract

In June 2022, a gastroenteritis outbreak occurred in a town in Northern Italy, possibly associated with the ingestion of norovirus from public drinking water. Noroviruses are highly infectious RNA viruses, with high stability in the environment. They are the primary cause of non-bacterial gastroenteritis worldwide, and despite the fact that the disease is mainly self-limiting, norovirus infection can lead to severe illness in the immunocompromised, the elderly and children. Immediately after the notification of the suspected norovirus outbreak, faecal specimens were collected from hospitalised patients, and water samples were collected from public drinking fountains in the affected area, to confirm the presence of norovirus. Norovirus was detected in 80 % (95 % CI 0.58-0.91) of the faecal specimens, and in 50 % (95 % CI 0.28-0.72) of the water samples using RT (reverse transcription) Real-time PCR. The identification of GII genotype in all samples confirmed public drinking water as the source of norovirus contamination. In addition, in one faeces and one water sample, the co-presence of genotypes GI and GII was detected. The strains were typed by sequencing, with most of them belonging to the genotype GII.3. Immediately after the confirmation of norovirus contamination in public drinking water, the local competent authorities applied safety measures, resulting in a decline in number of cases. Moreover, after the application of disinfection protocols in the water plant, the sampling was repeated with negative results for norovirus in the affected area. However, positive samples were found in the neighbouring area (prevalence 10.00 %, 95 % CI 0.02-0.40) and in the water spring (prevalence 50.00 %, 95 % CI 0.21-0.78), suggesting norovirus persistence and spread from the water source. The prompt identification of the source of contamination, and collaboration with the local authorities guided the implementation of proper procedures to control viral spread, resulting in the successful control of the outbreak.

Keywords: Norovirus outbreak; Outbreak management; Source identification; Water safety.

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Conflict of interest statement

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Figures

Fig. 1
Fig. 1
Flow diagram representing the investigation and management of the norovirus outbreak.
Fig. 2
Fig. 2
Maximum likelihood phylogenetic tree of norovirus GII sequences. The circles indicated the norovirus strains from this study detected from water samples, whereas the triangles from faeces samples. Norovirus GII reference sequences from Chhabra et al., 2019 are also considered in the dendrogram [5]. The tree was drawn to scale, with branch lengths measured in number of substitutions per site.
See this image and copyright information in PMC

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