Viable influenza A virus in airborne particles expelled during coughs versus exhalations
Elemento
Click for External Resource*
Click to read full article*
*The link above may share a zip file (.zip) hosted on repository.netecweb.org. Zip files will download automatically.
*All other links are external and will open in a new window. If you click an external link, you are leaving the NETEC site, and we do not maintain, review, or endorse these materials. See our terms of use.
Files for Download
Lindsley_et_al-2016-Influenza_and_Other_Respiratory_Viruses.pdfItem Type
PublicaciónTerms of Use
Visor de documentos
Título
Materia
Descripción
Fecha
Tipo
Citación
Resumen
Abstract
BACKGROUND:
To prepare for a possible influenza pandemic, a better understanding of the potential for the airborne transmission of influenza from person to person is needed.
OBJECTIVES:
The objective of this study was to directly compare the generation of aerosol particles containing viable influenza virus during coughs and exhalations.
METHODS:
Sixty-one adult volunteer outpatients with influenza-like symptoms were asked to cough and exhale three times into a spirometer. Aerosol particles produced during coughing and exhalation were collected into liquid media using aerosol samplers. The samples were tested for the presence of viable influenza virus using a viral replication assay (VRA).
RESULTS:
Fifty-three test subjects tested positive for influenza A virus. Of these, 28 (53%) produced aerosol particles containing viable influenza A virus during coughing, and 22 (42%) produced aerosols with viable virus during exhalation. Thirteen subjects had both cough aerosol and exhalation aerosol samples that contained viable virus, 15 had positive cough aerosol samples but negative exhalation samples, and 9 had positive exhalation samples but negative cough samples.
CONCLUSIONS:
Viable influenza A virus was detected more often in cough aerosol particles than in exhalation aerosol particles, but the difference was not large. Because individuals breathe much more often than they cough, these results suggest that breathing may generate more airborne infectious material than coughing over time. However, both respiratory activities could be important in airborne influenza transmission. Our results are also consistent with the theory that much of the aerosol containing viable influenza originates deep in the lungs.
Published 2016. This article is a U.S. Government work and is in the public domain in the USA. This article has been contributed to by US Government employees and their work is in the public domain in the USA.
KEYWORDS:
Aerosols; air microbiology; airborne transmission; cough; infectious disease transmission; influenza
Was this resource helpful?