Title of article
Mathematical Analysis and Clinical Implications of an HIV Model with Adaptive Immunity
Author/Authors
Danane, Jaouad Faculty of Sciences and Technologies - University Hassan II of Casablanca - Mohammedia, Morocco , Allali, Karam Faculty of Sciences and Technologies - University Hassan II of Casablanca - Mohammedia, Morocco
Pages
19
From page
1
To page
19
Abstract
In this paper, a mathematical model describing the human immunodeficiency virus (HIV) pathogenesis with adaptive immune
response is presented and studied. The mathematical model includes six nonlinear differential equations describing the interaction
between the uninfected cells, the exposed cells, the actively infected cells, the free viruses, and the adaptive immune response. The
considered adaptive immunity will be represented by cytotoxic T-lymphocytes cells (CTLs) and antibodies. First, the global
stability of the disease-free steady state and the endemic steady states is established depending on the basic reproduction number
R0, the CTL immune response reproduction number Rz
1, the antibody immune response reproduction number Rw
1 , the antibody
immune competition reproduction number Rw
2 , and the CTL immune response competition reproduction number Rz
3. On the
other hand, different numerical simulations are performed in order to confirm numerically the stability for each steady state.
Moreover, a comparison with some clinical data is conducted and analyzed. Finally, a sensitivity analysis for R0 is performed in
order to check the impact of different input parameters.
Keywords
Immunity , HIV , Implications , CTL
Journal title
Computational and Mathematical Methods in Medicine
Serial Year
2019
Full Text URL
Record number
2611456
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