PLoS ONE (Jan 2018)

Humidity as a non-pharmaceutical intervention for influenza A.

  • Jennifer M Reiman,
  • Biswadeep Das,
  • Gregory M Sindberg,
  • Mark D Urban,
  • Madeleine E M Hammerlund,
  • Han B Lee,
  • Katie M Spring,
  • Jamie Lyman-Gingerich,
  • Alex R Generous,
  • Tyler H Koep,
  • Kevin Ewing,
  • Phil Lilja,
  • Felicity T Enders,
  • Stephen C Ekker,
  • W Charles Huskins,
  • Hind J Fadel,
  • Chris Pierret

DOI
https://doi.org/10.1371/journal.pone.0204337
Journal volume & issue
Vol. 13, no. 9
p. e0204337

Abstract

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Influenza is a global problem infecting 5-10% of adults and 20-30% of children annually. Non-pharmaceutical interventions (NPIs) are attractive approaches to complement vaccination in the prevention and reduction of influenza. Strong cyclical reduction of absolute humidity has been associated with influenza outbreaks in temperate climates. This study tested the hypothesis that raising absolute humidity above seasonal lows would impact influenza virus survival and transmission in a key source of influenza virus distribution, a community school. Air samples and objects handled by students (e.g. blocks and markers) were collected from preschool classrooms. All samples were processed and PCR used to determine the presence of influenza virus and its amount. Additionally samples were tested for their ability to infect cells in cultures. We observed a significant reduction (p < 0.05) in the total number of influenza A virus positive samples (air and fomite) and viral genome copies upon humidification as compared to control rooms. This suggests the future potential of artificial humidification as a possible strategy to control influenza outbreaks in temperate climates. There were 2.3 times as many ILI cases in the control rooms compared to the humidified rooms, and whether there is a causal relationship, and its direction between the number of cases and levels of influenza virus in the rooms is not known. Additional research is required, but this is the first prospective study suggesting that exogenous humidification could serve as a scalable NPI for influenza or other viral outbreaks.