4.6 Article

Survival of the Enveloped Virus Phi6 in Droplets as a Function of Relative Humidity, Absolute Humidity, and Temperature

Journal

APPLIED AND ENVIRONMENTAL MICROBIOLOGY
Volume 84, Issue 12, Pages -

Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/AEM.00551-18

Keywords

influenza; coronavirus; SARS; MERS; humidity

Funding

  1. NIH [1-DP2-A1112243]
  2. Virginia Tech Institute for Critical Technology and Applied Science

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Infectious diseases caused by enveloped viruses, such as influenza, severe acute respiratory syndrome (SARS), and Middle East respiratory syndrome (MERS), cause thousands of deaths and billions of dollars of economic losses per year. Studies have found a relationship among temperature, humidity, and influenza virus incidence, transmission, or survival; however, there are contradictory claims about whether absolute humidity (AH) or relative humidity (RH) is most important in mediating virus infectivity. Using the enveloped bacteriophage Phi6, which has been suggested as a surrogate for influenza viruses and coronaviruses, we designed a study to discern whether AH, RH, or temperature is a better predictor of virus survival in droplets. Our results show that Phi6 survived best at high (> 85%) and low (< 60%) RHs, with a significant decrease in infectivity at mid-range RHs (similar to 60 to 85%). At an AH of less than 22 g center dot m(-3), the loss in infectivity was less than 2 orders of magnitude; however, when the AH was greater than 22 g center dot m(-3), the loss in infectivity was typically greater than 6 orders of magnitude. At a fixed RH of 75%, infectivity was very sensitive to temperature, decreasing two orders of magnitude between 19 degrees C and 25 degrees C. We used random forest modeling to identify the best environmental predictors for modulating virus infectivity. The model explained 83% of variation in Phi6 infectivity and suggested that RH is the most important factor in controlling virus infectivity in droplets. This research provides novel information about the complex interplay between temperature, humidity, and the survival of viruses in droplets. IMPORTANCE Enveloped viruses are responsible for a number of infectious diseases resulting in thousands of deaths and billions of dollars of economic losses per year in the United States. There has been a lively debate in the literature over whether absolute humidity (AH) or relative humidity (RH) modulates virus infectivity. We designed a controlled study and used advanced statistical modeling techniques specifically to address this question. By providing an improved understanding of the relationship between environmental conditions and virus infectivity, our work will ultimately lead to improved strategies for predicting and controlling disease transmission.

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