Design and Validation with Influenza A Virus of an Aerosol Transmission Chamber for Ferrets

Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of t...

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Published in	International journal of environmental research and public health Vol. 16; no. 4; p. 609
Main Authors	Turgeon, Nathalie, Hamelin, Marie-Ève, Verreault, Daniel, Lévesque, Ariane, Rhéaume, Chantal, Carbonneau, Julie, Checkmahomed, Liva, Girard, Matthieu, Boivin, Guy, Duchaine, Caroline
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 19.02.2019 MDPI
Subjects	Aerosols Animals Design Disease Models, Animal Disease transmission Ferrets Humans Influenza Influenza A virus - pathogenicity Influenza, Human - virology Laboratories Norovirus Orthomyxoviridae Infections - transmission Orthomyxoviridae Infections - virology Stainless steel Tuberculosis Viruses United States > US influenza virus ferret animal model aerosol chamber bioaerosols
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ISSN	1660-4601 1661-7827 1660-4601
DOI	10.3390/ijerph16040609

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Abstract	Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. Methods: A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. Conclusions: The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments.
AbstractList	Aerosol transmission of other diseases could be preferential or opportunistic [1]. [...]it is difficult to assess the importance (or not) of the airborne route in disease transmission. The evidence of severe acute respiratory syndrome (SARS) airborne transmission was first assessed by indirect evidences such as modeling and epidemiological studies [2]. [...]the possible airborne transmission of non-respiratory diseases, like Norovirus, is a subject of investigation [3,4,5]. [...]only a few studies have looked at the particle size of airborne viruses that can be found in the environment. [...]the culture of airborne viruses faces several challenges: (1) low concentrations of viruses in the air require large air volume sampling to allow detection (meaning extensive air sampling periods or the use of high-flow air samplers); (2) viruses can be damaged during air sampling; (3) environmental contaminants can interfere with virus or host cell growth (bacteria, mold, dust, etc.). Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. Methods: A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. Conclusions: The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments.Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. Methods: A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. Conclusions: The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments. Background : The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. Methods : A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. Conclusions : The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments. : The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. : A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. : The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments. Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct contact and droplets. Therefore, the importance of the airborne route in a clinical context is difficult to determine. The aim of this study was to design a chamber system to study the airborne transmission of viruses between ferrets. Methods: A system composed of three chambers connected in series, each one housing one ferret and preventing direct contact, was designed. The chambers were designed to house the ferrets for several days and to study the transmission of viruses from an infected (index) ferret to two naïve ferrets via aerosols and droplets or aerosols only. A particle separator was designed that can be used to modulate the size of the particles traveling between the chambers. The chamber system was validated using standard dust as well as with ferrets infected with influenza A virus. Conclusions: The 50% efficiency cut-off of the separator could be modulated between a 5-µm and an 8-µm aerodynamic diameter. In the described setup, influenza A virus was transmitted through the aerosol route in two out of three experiments, and through aerosols and droplets in all three experiments.
Author	Boivin, Guy Lévesque, Ariane Hamelin, Marie-Ève Turgeon, Nathalie Carbonneau, Julie Girard, Matthieu Checkmahomed, Liva Duchaine, Caroline Verreault, Daniel Rhéaume, Chantal
AuthorAffiliation	1 Centre de Recherche de l’Institut Universitaire de Cardiologie et de Pneumologie de Québec, 2725 Chemin Ste-Foy, Québec City, QC G1V 4G5, Canada; nathalie.turgeon@criucpq.ulaval.ca 3 Centre de Recherche du Centre Hospitalier Universitaire de Québec, CHUL, 2705 boulevard Laurier, Québec City, QC G1V 4G2, Canada; marie-eve.hamelin@crchudequebec.ulaval.ca (M.-È.H.); rheaumec@hotmail.com (C.R.); julie.carbonneau@crchudequebec.ulaval.ca (J.C.); liva.checkmahomed@crchudequebec.ulaval.ca (L.C.); guy.boivin@crchudequebec.ulaval.ca (G.B.) 2 Département de Biochimie, de Microbiologie et de Bio-Informatique, Faculté des sciences et de génie, Université Laval, Québec City, QC G1V 0A6, Canada 4 Research and Development Institute for the Agri-Environment, 2700 rue Einstein, Québec City, QC G1P 3W8, Canada; daniel.verreault@environnement.gouv.qc.ca (D.V.); ariane.levesque@irda.qc.ca (A.L.); matthieu.girard@irda.qc.ca (M.G.)
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Cites_doi	10.1056/NEJMp048051 10.1080/02786826.2010.530624 10.1371/journal.pone.0148669 10.1128/JVI.02765-13 10.1016/j.jviromet.2011.05.030 10.2807/ese.14.22.19230-en 10.1073/pnas.1716771115 10.24272/j.issn.2095-8137.2017.053 10.1371/journal.pone.0149083 10.1098/rsif.2010.0686 10.1093/cid/civ321 10.1038/nature12476 10.1016/j.vaccine.2016.11.054 10.1056/NEJMoa032867 10.1016/j.scitotenv.2017.03.105 10.3390/v8100274 10.1111/jam.13588
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Snippet	Background: The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted... : The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted through direct... Aerosol transmission of other diseases could be preferential or opportunistic [1]. [...]it is difficult to assess the importance (or not) of the airborne route... Background : The importance of aerosols in the spread of viruses like influenza is still a subject of debate. Indeed, most viruses can also be transmitted...
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SubjectTerms	Aerosols Animals Design Disease Models, Animal Disease transmission Ferrets Humans Influenza Influenza A virus - pathogenicity Influenza, Human - virology Laboratories Norovirus Orthomyxoviridae Infections - transmission Orthomyxoviridae Infections - virology Stainless steel Tuberculosis Viruses
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Title	Design and Validation with Influenza A Virus of an Aerosol Transmission Chamber for Ferrets
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