Scientists at the University of Rochester have created a mathematical model that can predict the immune responses to infection with influenza A viruses, including novel viruses such
A mathematical model developed at the University of Rochester can predict the immune responses to infection with influenza A viruses, including novel viruses such as the emergent 2009 influenza A (H1N1).
The model examines the contributions of specific sets of immune cells in fighting influenza A virus.Also, the model helps predict when antiviral therapy would be most effective during the immune response to viral infection.
The researchers conducted a study to improve preparedness for emerging and re-emerging pathogens.
At the time of virus infection, a network of immune cells becomes immediately engaged, taking up viral particles and presenting pieces of the virus-antigens-to specialized white blood cells, thereby initiating a virus-specific response.
The responding cells include T cells-which either directly attack and eliminate virus-infected cells or help other immune cells fight the virus-as well as B cells, which produce antibodies that bind and neutralize the virus.
The mathematical model generates immune response scenarios reflecting multiple variables, including the pathogenicity of the virus, numbers of responding B and T cells and function of antigen-presenting cells, in the lungs and lymph nodes.
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The mathematical model confirmed previous finding by predicting that antiviral therapy is most effective in reducing the spread of the virus when given within two days after infection.
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Now, they are planning to apply the model to human populations and continue to improve the model as more data become available.
Source-ANI
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