1. Characterising the epidemic spread of influenza A/H3N2 within a city through phylogenetics.
- Author
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Müller, Nicola F., Wüthrich, Daniel, Goldman, Nina, Sailer, Nadine, Saalfrank, Claudia, Brunner, Myrta, Augustin, Noémi, Seth-Smith, Helena MB, Hollenstein, Yvonne, Syedbasha, Mohammedyaseen, Lang, Daniela, Neher, Richard A., Dubuis, Olivier, Naegele, Michael, Buser, Andreas, Nickel, Christian H., Ritz, Nicole, Zeller, Andreas, Lang, Brian M., and Hadfield, James
- Subjects
SEASONAL influenza ,PRESCHOOL children ,PANDEMICS ,RESPIRATORY infections ,SCHOOL closings ,OLDER people ,INFLUENZA - Abstract
Infecting large portions of the global population, seasonal influenza is a major burden on societies around the globe. While the global source sink dynamics of the different seasonal influenza viruses have been studied intensively, its local spread remains less clear. In order to improve our understanding of how influenza is transmitted on a city scale, we collected an extremely densely sampled set of influenza sequences alongside patient metadata. To do so, we sequenced influenza viruses isolated from patients of two different hospitals, as well as private practitioners in Basel, Switzerland during the 2016/2017 influenza season. The genetic sequences reveal that repeated introductions into the city drove the influenza season. We then reconstruct how the effective reproduction number changed over the course of the season. While we did not find that transmission dynamics in Basel correlate with humidity or school closures, we did find some evidence that it may positively correlated with temperature. Alongside the genetic sequence data that allows us to see how individual cases are connected, we gathered patient information, such as the age or household status. Zooming into the local transmission outbreaks suggests that the elderly were to a large extent infected within their own transmission network. In the remaining transmission network, our analyses suggest that school-aged children likely play a more central role than pre-school aged children. These patterns will be valuable to plan interventions combating the spread of respiratory diseases within cities given that similar patterns are observed for other influenza seasons and cities. Author Summary: As shown with the current SARS-CoV-2 pandemic, respiratory diseases can quickly spread around the globe. While it can be important to understand how diseases spread around the globe, local spread is most often the main driver of novel infections of respiratory diseases such as SARS-CoV-2 or influenza. We here use genetic sequence data alongside patient information to better understand what drives the local spread of influenza by looking at the 2016/2017 influenza season in Basel, Switzerland as an example. The genetic sequence data allows us to reconstruct how the transmission dynamics changed over the course of the season, which we then compare to trends in humidity and temperature and times when schools were open or closed. Additionally, the genetic sequence data allows us to see how individual cases are connected. Using patient information, such as age and household status our analyses suggest that the elderly mainly transmit within their own transmission network. Additionally, they suggest that school aged children, but not necessarily pre-school aged children are important drivers of the local spread of influenza. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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