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Combined analyses of within-host SARS-CoV-2 viral kinetics and information on past exposures to the virus in a human cohort identifies intrinsic differences of Omicron and Delta variants

by Chapman, Lloyd A. C. , Wall, Emma C. , Russell, Timothy W. , Clayton, Bobbi , Gamblin, Steve , Pung, Rachael , Mears, Harriet V. , Quilty, Billy J. , Bailey, Chris , Harvey, Ruth , Hellewell, Joel , Adams, Lorin , Williams, Bryan , Hodgson, David , Ngai, Yenting , Bauer, David L. V. , Swanton, Charles , Beale, Rupert , Kucharski, Adam J. , O’Reilly, Nicola , Townsley, Hermaleigh , Nicod, Jerome , Gandhi, Sonia , Carr, Edward J. , Abbott, Sam , Fowler, Ashley S.

in Adult / Age / Analysis / Bayes Theorem / Bayesian analysis / Biology and Life Sciences / Biomedical research / Cancer research / Coronaviruses / Councils / COVID-19 / COVID-19 - epidemiology / COVID-19 vaccines / Crick, Francis / Disease transmission / Epidemics / Ethics / Exposure / Funding / Grants / Hospitals / Humans / Infections / Kinetics / Lung cancer / Medical research / Medical screening / Medicine and Health Sciences / Methods / Multilevel analysis / Mutation / Observational studies / Occupational health / Pathogens / People and Places / Polymerase chain reaction / Prospective Studies / Replication / SARS-CoV-2 - genetics / Severe acute respiratory syndrome coronavirus 2 / Stock options / University colleges / Vaccination / Viral diseases

2024

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Combined analyses of within-host SARS-CoV-2 viral kinetics and information on past exposures to the virus in a human cohort identifies intrinsic differences of Omicron and Delta variants

2024

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Combined analyses of within-host SARS-CoV-2 viral kinetics and information on past exposures to the virus in a human cohort identifies intrinsic differences of Omicron and Delta variants

2024

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Journal Article

Combined analyses of within-host SARS-CoV-2 viral kinetics and information on past exposures to the virus in a human cohort identifies intrinsic differences of Omicron and Delta variants

Chapman, Lloyd A. C.,

Wall, Emma C.,

Russell, Timothy W.,

Clayton, Bobbi,

Gamblin, Steve,

Pung, Rachael,

Mears, Harriet V.,

Quilty, Billy J.,

Bailey, Chris,

Harvey, Ruth,

Hellewell, Joel,

Adams, Lorin,

Williams, Bryan,

Hodgson, David,

Ngai, Yenting,

Bauer, David L. V.,

Swanton, Charles,

Beale, Rupert,

Kucharski, Adam J.,

O’Reilly, Nicola,

Townsley, Hermaleigh,

Nicod, Jerome,

Gandhi, Sonia,

Carr, Edward J.,

Abbott, Sam,

Fowler, Ashley S.

2024

Overview

The emergence of successive Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) variants of concern (VOCs) during 2020 to 2022, each exhibiting increased epidemic growth relative to earlier circulating variants, has created a need to understand the drivers of such growth. However, both pathogen biology and changing host characteristics—such as varying levels of immunity—can combine to influence replication and transmission of SARS-CoV-2 within and between hosts. Disentangling the role of variant and host in individual-level viral shedding of VOCs is essential to inform Coronavirus Disease 2019 (COVID-19) planning and response and interpret past epidemic trends. Using data from a prospective observational cohort study of healthy adult volunteers undergoing weekly occupational health PCR screening, we developed a Bayesian hierarchical model to reconstruct individual-level viral kinetics and estimate how different factors shaped viral dynamics, measured by PCR cycle threshold (Ct) values over time. Jointly accounting for both interindividual variation in Ct values and complex host characteristics—such as vaccination status, exposure history, and age—we found that age and number of prior exposures had a strong influence on peak viral replication. Older individuals and those who had at least 5 prior antigen exposures to vaccination and/or infection typically had much lower levels of shedding. Moreover, we found evidence of a correlation between the speed of early shedding and duration of incubation period when comparing different VOCs and age groups. Our findings illustrate the value of linking information on participant characteristics, symptom profile and infecting variant with prospective PCR sampling, and the importance of accounting for increasingly complex population exposure landscapes when analysing the viral kinetics of VOCs. Trial Registration: The Legacy study is a prospective observational cohort study of healthy adult volunteers undergoing weekly occupational health PCR screening for SARS-CoV-2 at University College London Hospitals or at the Francis Crick Institute ( NCT04750356 ) (22,23). The Legacy study was approved by London Camden and Kings Cross Health Research Authority Research and Ethics committee (IRAS number 286469). The Legacy study was approved by London Camden and Kings Cross Health Research Authority Research and Ethics committee (IRAS number 286469) and is sponsored by University College London Hospitals. Written consent was given by all participants.

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Public Library of Science,Public Library of Science (PLoS)

Subject

/ Age

/ Biology and Life Sciences

/ Biomedical research