Comprehensive analyses reveal the impacts of vaccination status and physiological variables in early infection on viral persistence in COVID-19 patients: a retrospective single-center cohort study (preprint)

ABSTRACT

BACKGROUNDViral persistence is a crucial factor that influences the communicability of SARS-CoV-2 infection. However, the impacts of vaccination status and physiological variables on viral RNA shedding have not been adequately clarified. METHODSIn this study, we retrospectively collected the clinical records of 377 hospitalized COVID-19 patients, which contained unvaccinated patients and patients received two doses of an inactivated vaccine or an mRNA vaccine. Firstly, we analyzed the impacts of vaccination on disease severity and viral RNA persistence. Next, to clarify the impacts of physiological variables on viral RNA shedding in COVID-19 patients, we retrieved 49 laboratory variables and analyzed their correlations with the duration of viral RNA shedding. Finally, we established a multivariate regression model to predict the duration of viral RNA shedding. RESULTSOur results showed that both inactivated and mRNA vaccines significantly reduced the rate of moderate cases, while the vaccine related shortening of viral RNA shedding were only observed in moderate patients. Correlation analysis showed that 10 significant laboratory variables were shared by the unvaccinated mild patients and mild patients inoculated with an inactivated vaccine, but not by the mild patients inoculated with an mRNA vaccine. Moreover, we demonstrated that a multivariate regression model established based on the variables correlating with viral persistence in unvaccinated mild patients could predict the duration of viral shedding for all groups of patients. CONCLUSIONSVaccination contributed limitedly to the clearance viral RNA in COVID-19 patients. While, laboratory variables in early infection could predict the persistence of viral RNA.