Areej Alshorman scite author profile

Time delays can affect the dynamics of HIV infection predicted by mathematical models. In this paper, we studied two mathematical models each with two time delays. In the first model with HIV latency, one delay is the time between viral entry into a cell and the establishment of HIV latency, and the other delay is the time between cell infection and viral production. We defined the basic reproductive number and showed the local and global stability of the steady states. Numerical simulations were performed to evaluate the influence of time delays on the dynamics. In the second model with HIV immune response, one delay is the time between cell infection and viral production, and the other delay is the time needed for the adaptive immune response to emerge to control viral replication. With two positive delays, we obtained the stability crossing curves for the model, which were shown to be a series of open-ended curves. ARTICLE HISTORY

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An HIV model with age-structured latently infected cells

Alshorman

Samarasinghe

et al. 2016

Journal of Biological Dynamics

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HIV latency remains a major obstacle to viral elimination. The activation rate of latently infected cells may depend on the age of latent infection. In this paper, we develop a model of HIV infection including age-structured latently infected cells. We mathematically analyse the model and use numerical simulations with different activation functions to show that the model can explain the persistence of lowlevel viremia and the latent reservoir stability in patients on therapy. Sensitivity tests suggest that the model is robust to the changes of most parameters but is sensitive to the relative magnitude of the net generation rate and the long-term activation rate of latently infected cells. To reduce the sensitivity, we extend the model to include homeostatic proliferation of latently infected cells. The new model is robust in reproducing the long-term dynamics of the virus and latently infected cells observed in patients receiving prolonged combination therapy. ARTICLE HISTORY

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Analysis of HIV latent infection model with multiple infection stages and different drug classes

Alshorman

Al-Hosainat

Jackson

2022

Journal of Biological Dynamics

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Areej Alshorman

Analysis of HIV models with two time delays

An HIV model with age-structured latently infected cells

Analysis of HIV latent infection model with multiple infection stages and different drug classes

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