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Environmental Stability of Enveloped Viruses Is Impacted by Initial Volume and Evaporation Kinetics of Droplets

Andrea French, Alexandra Longest, Jin Pan, Peter J. Vikesland, Nisha K. Duggal, Linsey C. Marr, Seema S. Lakdawala

2023mBio37 citationsDOIOpen Access PDF

Abstract

During the COVID-19 pandemic, policy decisions were being driven by virus stability experiments with SARS-CoV-2 in different droplet volumes under various humidity conditions. Our study, the first of its kind, provides a model for the decay of multiple enveloped RNA viruses in cell culture medium deposited in 50-, 5-, and 1-μL droplets at 40%, 65%, and 85% RH over time. The results of our study indicate that determination of half-lives for emerging pathogens in large droplets may overestimate transmission risk for contaminated surfaces, as observed during the COVID-19 pandemic. Our study implicates the need for the use of physiologically relevant droplet sizes with use of relevant surrogates in addition to what is already known about the importance of physiologically relevant media for risk assessment of future emerging pathogens.

Topics & Concepts

Volume (thermodynamics)KineticsEvaporationChemistryPhysicsThermodynamicsClassical mechanicsInfection Control and VentilationNanomaterials and Printing TechnologiesMobile Crowdsensing and Crowdsourcing
Environmental Stability of Enveloped Viruses Is Impacted by Initial Volume and Evaporation Kinetics of Droplets | Litcius