Ramya S. Barre scite author profile

Influenza viruses are presumed, but not conclusively known, to spread among humans by several possible routes. We provide evidence of a mode of transmission seldom considered for influenza: airborne virus transport on microscopic particles called "aerosolized fomites." In the guinea pig model of influenza virus transmission, we show that the airborne particulates produced by infected animals are mainly non-respiratory in origin. Surprisingly, we find that an uninfected, virus-immune guinea pig whose body is contaminated with influenza virus can transmit the virus through the air to a susceptible partner in a separate cage. We further demonstrate that aerosolized fomites can be generated from inanimate objects, such as by manually rubbing a paper tissue contaminated with influenza virus. Our data suggest that aerosolized fomites may contribute to influenza virus transmission in animal models of human influenza, if not among humans themselves, with important but understudied implications for public health.

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Genetic and Environmental interactions contribute to immune variation in rewilded mice

Oyesola

Downie

Howard

et al. 2023

Preprint

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The relative and potentially synergistic contributions of genetics and environment to inter-individual immune response variation remain unclear, despite critical implications of such variation in both medicine and evolutionary biology. Here, we quantify interactive effects of genotype and environment on immune traits by investigating different inbred mouse strains rewilded in outdoor enclosures and infected with the parasite, Trichuris muris. Whereas cytokine response heterogeneity was primarily driven by genotype, cellular composition heterogeneity was shaped by interactions between genotype and environment with genetic mediated differences decreasing following rewilding, but less dramatically for T cells than for B cells. Importantly, immune variation was associated with altered parasite burdens. These results indicate that nonheritable influences interact with genetic factors to shape immune variation, with synergistic impacts on the deployment and potential evolution of defense mechanisms.

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Non-respiratory Particles Emitted by Guinea Pigs in Airborne Disease Transmission Experiments

Asadi

Tupas

Barre

et al. 2021

Preprint

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Animal models are often used to assess the airborne transmissibility of various pathogens, which are typically assumed to be carried by expiratory droplets emitted directly from the respiratory tract of the infected animal. We recently established that influenza virus is also transmissible via “aerosolized fomites,” micron-scale dust particulates released from virus-contaminated surfaces (Asadi et al., Nature Communications, 2020). Here we expand on this observation, by counting and characterizing the particles emitted from guinea pig cages using an Aerodynamic Particle Sizer (APS) and an Interferometric Mie Imaging (IMI) system. Of over 9,000 airborne particles emitted from guinea pig cages and directly imaged with IMI, none had an interference pattern indicative of a liquid droplet. Separate measurements of the particle count using the APS indicate that particle concentrations spike upwards immediately following animal motion, then decay exponentially with a time constant commensurate with the air exchange rate in the cage. Taken together, the results presented here raise the possibility that a non-negligible fraction of airborne influenza transmission events between guinea pigs occurs via aerosolized fomites rather than respiratory droplets, though the relative frequencies of these two routes have yet to be definitively determined.

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Non-respiratory particles emitted by guinea pigs in airborne disease transmission experiments

Asadi

Tupas

Barre

et al. 2021

Sci Rep

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Animal models are often used to assess the airborne transmissibility of various pathogens, which are typically assumed to be carried by expiratory droplets emitted directly from the respiratory tract of the infected animal. We recently established that influenza virus is also transmissible via “aerosolized fomites,” micron-scale dust particulates released from virus-contaminated surfaces (Asadi et al. in Nat Commun 11(1):4062, 2020). Here we expand on this observation, by counting and characterizing the particles emitted from guinea pig cages using an Aerodynamic Particle Sizer (APS) and an Interferometric Mie Imaging (IMI) system. Of over 9000 airborne particles emitted from guinea pig cages and directly imaged with IMI, none had an interference pattern indicative of a liquid droplet. Separate measurements of the particle count using the APS indicate that particle concentrations spike upwards immediately following animal motion, then decay exponentially with a time constant commensurate with the air exchange rate in the cage. Taken together, the results presented here raise the possibility that a non-negligible fraction of airborne influenza transmission events between guinea pigs occurs via aerosolized fomites rather than respiratory droplets, though the relative frequencies of these two routes have yet to be definitively determined.

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Ramya S. Barre

Influenza A virus is transmissible via aerosolized fomites

Genetic and Environmental interactions contribute to immune variation in rewilded mice

Non-respiratory Particles Emitted by Guinea Pigs in Airborne Disease Transmission Experiments

Non-respiratory particles emitted by guinea pigs in airborne disease transmission experiments

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