Abstract
BackgroundIn the recent years, the data on the molecular epidemiology of influenza viruses have expanded enormously because of the availability of cutting-edge sequencing technologies. However, much of the information is from the temperate regions with few studies from tropical regions such as South-east Asia. Despite the fact that influenza has been known to transmit rapidly within semi-closed communities, such as military camps and educational institutions, data are limited from these communities.ObjectivesTo determine the phylogeography of influenza viruses on a university campus, we examined the spatial distribution of influenza virus on the National University of Singapore (NUS) campus.MethodsConsenting students from the NUS who sought medical attention at the UHC provided two nasopharyngeal swabs and demographic data. PCR was used for detection of influenza viruses. 34 full-genomes of pH1N1/09 viruses were successfully sequenced by Sanger method and concatenated using Geneious R7. Phylogenetic analysis was conducted using these 34 sequences and 1518 global sequences. Phylogeographic analysis was done using BaTS software and Association index and Fitch parsimony scores were determined.ResultsIntegrating whole genome sequencing data with epidemiological data, we found strong evidence of influenza transmission on campus as isolates from students residing on-campus were highly similar to each other (AI, P value = 0.009; PS, P value = 0.04). There was also evidence of multiple introductions from the community.ConclusionsSuch data are useful in formulating pandemic preparedness plans which can use these communities as sentinel sites for detection and monitoring of emerging respiratory viral infections.
Highlights
Molecular data have been instrumental in studying the origin as well as persistence and migration of influenza viruses [1,2]
To determine the phylogeography of influenza viruses on a university campus, we examined the spatial distribution of influenza virus on the National University of Singapore (NUS) campus
PCR was used for detection of influenza viruses. 34 full-genomes of pH1N1/09 viruses were successfully sequenced by Sanger method and concatenated using Geneious R7
Summary
Molecular data have been instrumental in studying the origin as well as persistence and migration of influenza viruses [1,2]. Molecular studies provide detailed virus characteristics, such as type, subtype, lineage, virulence and drug resistance markers. They provide insights into the pathways of viral transmission and help in understanding the phylogeography of influenza viruses when integrated with epidemiological data [3]. A better integration of molecular and epidemiological data may (i) help unfold the dynamics of spatial transmission, (ii) provide insights into the global transmission patterns of influenza viruses and the existence of source populations, and (iii) help public health authorities to plan more targeted intervention strategies. Despite the fact that influenza has been known to transmit rapidly within semi-closed communities, such as military camps and educational institutions, data are limited from these communities.
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