Detection of Infectious Influenza Virus in Cough Aerosols Generated in a Simulated Patient Examination Room

Details

• Alternative Title:
  Clin Infect Dis
• Personal Author:
  Noti, John D. ; Lindsley, William G. ; Blachere, Francoise M. ; Cao, Gang ; Kashon, Michael L. ; Thewlis, Robert E. ; McMillen, Cynthia M. ; King, William P. ; Szalajda, Jonathan V. ; Beezhold, Donald H.
• Description:
  Background
  
  The potential for aerosol transmission of infectious influenza virus (ie, in healthcare facilities) is controversial. We constructed a simulated patient examination room that contained coughing and breathing manikins to determine whether coughed influenza was infectious and assessed the effectiveness of an N95 respirator and surgical mask in blocking transmission.
  
  Methods
  
  National Institute for Occupational Safety and Health aerosol samplers collected size-fractionated aerosols for 60 minutes at the mouth of the breathing manikin, beside the mouth, and at 3 other locations in the room. Total recovered virus was quantitated by quantitative polymerase chain reaction and infectivity was determined by the viral plaque assay and an enhanced infectivity assay.
  
  Results
  
  Infectious influenza was recovered in all aerosol fractions (5.0% in >4 µm aerodynamic diameter, 75.5% in 1–4 µm, and 19.5% in <1 µm; n = 5). Tightly sealing a mask to the face blocked entry of 94.5% of total virus and 94.8% of infectious virus (n = 3). A tightly sealed respirator blocked 99.8% of total virus and 99.6% of infectious virus (n = 3). A poorly fitted respirator blocked 64.5% of total virus and 66.5% of infectious virus (n = 3). A mask documented to be loosely fitting by a PortaCount fit tester, to simulate how masks are worn by healthcare workers, blocked entry of 68.5% of total virus and 56.6% of infectious virus (n = 2).
  
  Conclusions
  
  These results support a role for aerosol transmission and represent the first reported laboratory study of the efficacy of masks and respirators in blocking inhalation of influenza in aerosols. The results indicate that a poorly fitted respirator performs no better than a loosely fitting mask.
  
  
• Keywords:
  Aerosols Air Microbiology Cough Disease Transmission, Infectious Humans Influenza, Human Masks Orthomyxoviridae Real-Time Polymerase Chain Reaction Viral Load Viral Plaque Assay

  More +
• Source:
  Clin Infect Dis. 54(11):1569-1577
• Pubmed ID:
  22460981
• Pubmed Central ID:
  PMC4680957
• Document Type:
  Journal Article
• Funding:
  CC999999/ImCDC/Intramural CDC HHSUnited States/
• Volume:
  54
• Issue:
  11
• Collection(s):
  CDC Public Access
• Main Document Checksum:
  urn:sha256:5c1bfaff1f80805cedbbbe1664827ffbc906a32101ad6865ed4d64a127abce12
• Download URL:
  https://stacks.cdc.gov/view/cdc/36869/cdc_36869_DS1.pdf
• File Type:
  [PDF - 2.99 MB ]