SARS-CoV-2 variant introduction following spring break travel and transmission mitigation strategies
University spring break carries a two-pronged SARS-CoV-2 variant transmission risk. Circulating variants from universities can spread to spring break destinations, and variants from spring break destinations can spread to universities and surrounding communities. Therefore, it is critical to impleme...
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| Veröffentlicht in: | PloS one 2024-05, Vol.19 (5), p.e0301225 |
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| creator | Napolitano, Justin M Srikanth, Sujata Noorai, Rooksana E Wilson, Stevin Williams, Kaitlyn E Rosales-Garcia, Ramses A Krueger, Brian Emerson, Chloe Parker, Scott Pruitt, John Dango, Rachel Iyer, Lax Shafi, Adib Jayawardena, Iromi Parkinson, Christopher L McMahan, Christopher Rennert, Lior Peng, Congyue Annie Dean, Delphine |
| description | University spring break carries a two-pronged SARS-CoV-2 variant transmission risk. Circulating variants from universities can spread to spring break destinations, and variants from spring break destinations can spread to universities and surrounding communities. Therefore, it is critical to implement SARS-CoV-2 variant surveillance and testing strategies to limit community spread before and after spring break to mitigate virus transmission and facilitate universities safely returning to in-person teaching.
We examined the SARS-CoV-2 positivity rate and changes in variant lineages before and after the university spring break for two consecutive years. 155 samples were sequenced across four time periods: pre- and post-spring break 2021 and pre- and post-spring break 2022; following whole genome sequencing, samples were assigned clades. The clades were then paired with positivity and testing data from over 50,000 samples.
In 2021, the number of variants in the observed population increased from four to nine over spring break, with variants of concern being responsible for most of the cases; Alpha percent composition increased from 22.2% to 56.4%. In 2022, the number of clades in the population increased only from two to three, all of which were Omicron or a sub-lineage of Omicron. However, phylogenetic analysis showed the emergence of distantly related sub-lineages. 2022 saw a greater increase in positivity than 2021, which coincided with a milder mitigation strategy. Analysis of social media data provided insight into student travel destinations and how those travel events may have impacted spread.
We show the role that repetitive testing can play in transmission mitigation, reducing community spread, and maintaining in-person education. We identified that distantly related lineages were brought to the area after spring break travel regardless of the presence of a dominant variant of concern. |
| doi_str_mv | 10.1371/journal.pone.0301225 |
| format | Article |
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We examined the SARS-CoV-2 positivity rate and changes in variant lineages before and after the university spring break for two consecutive years. 155 samples were sequenced across four time periods: pre- and post-spring break 2021 and pre- and post-spring break 2022; following whole genome sequencing, samples were assigned clades. The clades were then paired with positivity and testing data from over 50,000 samples.
In 2021, the number of variants in the observed population increased from four to nine over spring break, with variants of concern being responsible for most of the cases; Alpha percent composition increased from 22.2% to 56.4%. In 2022, the number of clades in the population increased only from two to three, all of which were Omicron or a sub-lineage of Omicron. However, phylogenetic analysis showed the emergence of distantly related sub-lineages. 2022 saw a greater increase in positivity than 2021, which coincided with a milder mitigation strategy. Analysis of social media data provided insight into student travel destinations and how those travel events may have impacted spread.
We show the role that repetitive testing can play in transmission mitigation, reducing community spread, and maintaining in-person education. We identified that distantly related lineages were brought to the area after spring break travel regardless of the presence of a dominant variant of concern.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0301225</identifier><identifier>PMID: 38722935</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Academic libraries ; Asymptomatic ; Bioinformatics ; Biology and life sciences ; College campuses ; College students ; Colleges & universities ; Community ; Computer and Information Sciences ; COVID-19 ; COVID-19 - epidemiology ; COVID-19 - prevention & control ; COVID-19 - transmission ; COVID-19 - virology ; COVID-19 diagnostic tests ; Disease transmission ; DNA sequencing ; Employees ; Epidemics ; Gene sequencing ; Genomes ; Genomics ; Health aspects ; Humans ; Learning ; Medicine and Health Sciences ; Nucleotide sequencing ; Phylogenetics ; Phylogeny ; Research and Analysis Methods ; SARS-CoV-2 - genetics ; SARS-CoV-2 - isolation & purification ; Seasons ; Severe acute respiratory syndrome coronavirus 2 ; Social Sciences ; Spring breaks ; Surveillance ; Teaching methods ; Travel ; United States ; Universities ; Virus research ; Whole Genome Sequencing</subject><ispartof>PloS one, 2024-05, Vol.19 (5), p.e0301225</ispartof><rights>Copyright: © 2024 Napolitano et al. 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Circulating variants from universities can spread to spring break destinations, and variants from spring break destinations can spread to universities and surrounding communities. Therefore, it is critical to implement SARS-CoV-2 variant surveillance and testing strategies to limit community spread before and after spring break to mitigate virus transmission and facilitate universities safely returning to in-person teaching.
We examined the SARS-CoV-2 positivity rate and changes in variant lineages before and after the university spring break for two consecutive years. 155 samples were sequenced across four time periods: pre- and post-spring break 2021 and pre- and post-spring break 2022; following whole genome sequencing, samples were assigned clades. The clades were then paired with positivity and testing data from over 50,000 samples.
In 2021, the number of variants in the observed population increased from four to nine over spring break, with variants of concern being responsible for most of the cases; Alpha percent composition increased from 22.2% to 56.4%. In 2022, the number of clades in the population increased only from two to three, all of which were Omicron or a sub-lineage of Omicron. However, phylogenetic analysis showed the emergence of distantly related sub-lineages. 2022 saw a greater increase in positivity than 2021, which coincided with a milder mitigation strategy. Analysis of social media data provided insight into student travel destinations and how those travel events may have impacted spread.
We show the role that repetitive testing can play in transmission mitigation, reducing community spread, and maintaining in-person education. 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one</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Napolitano, Justin M</au><au>Srikanth, Sujata</au><au>Noorai, Rooksana E</au><au>Wilson, Stevin</au><au>Williams, Kaitlyn E</au><au>Rosales-Garcia, Ramses A</au><au>Krueger, Brian</au><au>Emerson, Chloe</au><au>Parker, Scott</au><au>Pruitt, John</au><au>Dango, Rachel</au><au>Iyer, Lax</au><au>Shafi, Adib</au><au>Jayawardena, Iromi</au><au>Parkinson, Christopher L</au><au>McMahan, Christopher</au><au>Rennert, Lior</au><au>Peng, Congyue Annie</au><au>Dean, Delphine</au><au>Sambri, Vittorio</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>SARS-CoV-2 variant introduction following spring break travel and transmission mitigation strategies</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2024-05-09</date><risdate>2024</risdate><volume>19</volume><issue>5</issue><spage>e0301225</spage><pages>e0301225-</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>University spring break carries a two-pronged SARS-CoV-2 variant transmission risk. Circulating variants from universities can spread to spring break destinations, and variants from spring break destinations can spread to universities and surrounding communities. Therefore, it is critical to implement SARS-CoV-2 variant surveillance and testing strategies to limit community spread before and after spring break to mitigate virus transmission and facilitate universities safely returning to in-person teaching.
We examined the SARS-CoV-2 positivity rate and changes in variant lineages before and after the university spring break for two consecutive years. 155 samples were sequenced across four time periods: pre- and post-spring break 2021 and pre- and post-spring break 2022; following whole genome sequencing, samples were assigned clades. The clades were then paired with positivity and testing data from over 50,000 samples.
In 2021, the number of variants in the observed population increased from four to nine over spring break, with variants of concern being responsible for most of the cases; Alpha percent composition increased from 22.2% to 56.4%. In 2022, the number of clades in the population increased only from two to three, all of which were Omicron or a sub-lineage of Omicron. However, phylogenetic analysis showed the emergence of distantly related sub-lineages. 2022 saw a greater increase in positivity than 2021, which coincided with a milder mitigation strategy. Analysis of social media data provided insight into student travel destinations and how those travel events may have impacted spread.
We show the role that repetitive testing can play in transmission mitigation, reducing community spread, and maintaining in-person education. We identified that distantly related lineages were brought to the area after spring break travel regardless of the presence of a dominant variant of concern.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>38722935</pmid><doi>10.1371/journal.pone.0301225</doi><tpages>e0301225</tpages><orcidid>https://orcid.org/0000-0001-5272-5044</orcidid><orcidid>https://orcid.org/0000-0002-8631-2640</orcidid><orcidid>https://orcid.org/0000-0002-9992-5737</orcidid><orcidid>https://orcid.org/0000-0001-5275-7273</orcidid><orcidid>https://orcid.org/0009-0005-3723-3937</orcidid><orcidid>https://orcid.org/0000-0002-9992-5198</orcidid><oa>free_for_read</oa></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 1932-6203 |
| ispartof | PloS one, 2024-05, Vol.19 (5), p.e0301225 |
| issn | 1932-6203 1932-6203 |
| language | eng |
| recordid | cdi_plos_journals_3069285422 |
| source | MEDLINE; DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central; Free Full-Text Journals in Chemistry; Public Library of Science (PLoS) |
| subjects | Academic libraries Asymptomatic Bioinformatics Biology and life sciences College campuses College students Colleges & universities Community Computer and Information Sciences COVID-19 COVID-19 - epidemiology COVID-19 - prevention & control COVID-19 - transmission COVID-19 - virology COVID-19 diagnostic tests Disease transmission DNA sequencing Employees Epidemics Gene sequencing Genomes Genomics Health aspects Humans Learning Medicine and Health Sciences Nucleotide sequencing Phylogenetics Phylogeny Research and Analysis Methods SARS-CoV-2 - genetics SARS-CoV-2 - isolation & purification Seasons Severe acute respiratory syndrome coronavirus 2 Social Sciences Spring breaks Surveillance Teaching methods Travel United States Universities Virus research Whole Genome Sequencing |
| title | SARS-CoV-2 variant introduction following spring break travel and transmission mitigation strategies |
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