Interval between infections and viral hierarchy are determinants of viral interference following influenza virus infection in a ferret model
- Laurie, Karen, Guarnaccia, Teagan, Carolan, Louise, Yan, Aada, Aban, Malet, Petrie, Stephen, Cao, Pengxing, Heffernan, Jane, McVernon, Jodie, Mosse, Jennifer, Kelso, Anne, McCaw, James, Barr, Ian
- Authors: Laurie, Karen , Guarnaccia, Teagan , Carolan, Louise , Yan, Aada , Aban, Malet , Petrie, Stephen , Cao, Pengxing , Heffernan, Jane , McVernon, Jodie , Mosse, Jennifer , Kelso, Anne , McCaw, James , Barr, Ian
- Date: 2015
- Type: Text , Journal article
- Relation: Journal of Infectious Diseases Vol. 212, no. 10 (2015), p. 1701-1710
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- Description: Background. Epidemiological studies suggest that, following infection with influenza virus, there is a short period during which a host experiences a lower susceptibility to infection with other influenza viruses. This viral interference appears to be independent of any antigenic similarities between the viruses. We used the ferret model of human influenza to systematically investigate viral interference. Methods. Ferrets were first infected then challenged 1-14 days later with pairs of influenza A(H1N1)pdm09, influenza A(H3N2), and influenza B viruses circulating in 2009 and 2010. Results. Viral interference was observed when the interval between initiation of primary infection and subsequent challenge was <1 week. This effect was virus specific and occurred between antigenically related and unrelated viruses. Coinfections occurred when 1 or 3 days separated infections. Ongoing shedding from the primary virus infection was associated with viral interference after the secondary challenge. Conclusions. The interval between infections and the sequential combination of viruses were important determinants of viral interference. The influenza viruses in this study appear to have an ordered hierarchy according to their ability to block or delay infection, which may contribute to the dominance of different viruses often seen in an influenza season.
- Authors: Laurie, Karen , Guarnaccia, Teagan , Carolan, Louise , Yan, Aada , Aban, Malet , Petrie, Stephen , Cao, Pengxing , Heffernan, Jane , McVernon, Jodie , Mosse, Jennifer , Kelso, Anne , McCaw, James , Barr, Ian
- Date: 2015
- Type: Text , Journal article
- Relation: Journal of Infectious Diseases Vol. 212, no. 10 (2015), p. 1701-1710
- Full Text:
- Reviewed:
- Description: Background. Epidemiological studies suggest that, following infection with influenza virus, there is a short period during which a host experiences a lower susceptibility to infection with other influenza viruses. This viral interference appears to be independent of any antigenic similarities between the viruses. We used the ferret model of human influenza to systematically investigate viral interference. Methods. Ferrets were first infected then challenged 1-14 days later with pairs of influenza A(H1N1)pdm09, influenza A(H3N2), and influenza B viruses circulating in 2009 and 2010. Results. Viral interference was observed when the interval between initiation of primary infection and subsequent challenge was <1 week. This effect was virus specific and occurred between antigenically related and unrelated viruses. Coinfections occurred when 1 or 3 days separated infections. Ongoing shedding from the primary virus infection was associated with viral interference after the secondary challenge. Conclusions. The interval between infections and the sequential combination of viruses were important determinants of viral interference. The influenza viruses in this study appear to have an ordered hierarchy according to their ability to block or delay infection, which may contribute to the dominance of different viruses often seen in an influenza season.
Using the ferret as an animal model for investigating influenza antiviral effectiveness
- Authors: Oh, Ding , Hurt, Aeron
- Date: 2016
- Type: Text , Journal article
- Relation: Frontiers in Microbiology Vol. 7, no. (2016), p. 1-12
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- Description: The concern of the emergence of a pandemic influenza virus has sparked an increased effort toward the development and testing of novel influenza antivirals. Central to this is the animal model of influenza infection, which has played an important role in understanding treatment effectiveness and the effect of antivirals on host immune responses. Among the different animal models of influenza, ferrets can be considered the most suitable for antiviral studies as they display most of the human-like symptoms following influenza infections, they can be infected with human influenza virus without prior viral adaptation and have the ability to transmit influenza virus efficiently between one another. However, an accurate assessment of the effectiveness of an antiviral treatment in ferrets is dependent on three major experimental considerations encompassing firstly, the volume and titer of virus, and the route of viral inoculation. Secondly, the route and dose of drug administration, and lastly, the different methods used to assess clinical symptoms, viral shedding kinetics and host immune responses in the ferrets. A good understanding of these areas is necessary to achieve data that can accurately inform the human use of influenza antivirals. In this review, we discuss the current progress and the challenges faced in these three major areas when using the ferret model to measure influenza antiviral effectiveness.
- Authors: Oh, Ding , Hurt, Aeron
- Date: 2016
- Type: Text , Journal article
- Relation: Frontiers in Microbiology Vol. 7, no. (2016), p. 1-12
- Full Text:
- Reviewed:
- Description: The concern of the emergence of a pandemic influenza virus has sparked an increased effort toward the development and testing of novel influenza antivirals. Central to this is the animal model of influenza infection, which has played an important role in understanding treatment effectiveness and the effect of antivirals on host immune responses. Among the different animal models of influenza, ferrets can be considered the most suitable for antiviral studies as they display most of the human-like symptoms following influenza infections, they can be infected with human influenza virus without prior viral adaptation and have the ability to transmit influenza virus efficiently between one another. However, an accurate assessment of the effectiveness of an antiviral treatment in ferrets is dependent on three major experimental considerations encompassing firstly, the volume and titer of virus, and the route of viral inoculation. Secondly, the route and dose of drug administration, and lastly, the different methods used to assess clinical symptoms, viral shedding kinetics and host immune responses in the ferrets. A good understanding of these areas is necessary to achieve data that can accurately inform the human use of influenza antivirals. In this review, we discuss the current progress and the challenges faced in these three major areas when using the ferret model to measure influenza antiviral effectiveness.
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