Modeling HIV-1 infection in the brain

In this study we develop a novel mathematical model that describes HIV-1 infection in the brain and in the plasma coupled via the BBB. The model predictions are consistent with data from macaques infected with a mixture of simian immunodeficiency virus (SIV) and simian-human immunodeficiency virus (SHIV). Using our model, we estimate the rate of virus transport across the BBB as well as viral replication inside the brain, and we compute the basic reproduction number. We also carry out thorough sensitivity analysis to define the robustness of the model predictions on virus dynamics inside the brain. Our model provides useful insight into virus replication within the brain and suggests that the brain can be an important reservoir causing long-term viral persistence.

http://feedproxy.google.com/~r/ploscompbiol/NewArticles/~3/EljQ8KzoTHw/article

Source: PLoS Computational Biology - November 19, 2020 Category: Biology Authors: Colin T. Barker Source Type: research