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GLOBAL STABILITY OF HIV INFECTION MODELS WITH INTRACELLULAR DELAYS
Elaiw, Ahmed,Hassanien, Ismail,Azoz, Shimaa Korean Mathematical Society 2012 대한수학회지 Vol.49 No.4
In this paper, we study the global stability of two mathematical models for human immunodeficiency virus (HIV) infection with intra-cellular delays. The first model is a 5-dimensional nonlinear delay ODEs that describes the interaction of the HIV with two classes of target cells, $CD4^+$ T cells and macrophages taking into account the saturation infection rate. The second model generalizes the first one by assuming that the infection rate is given by Beddington-DeAngelis functional response. Two time delays are used to describe the time periods between viral entry the two classes of target cells and the production of new virus particles. Lyapunov functionals are constructed and LaSalle-type theorem for delay differential equation is used to establish the global asymptotic stability of the uninfected and infected steady states of the HIV infection models. We have proven that if the basic reproduction number $R_0$ is less than unity, then the uninfected steady state is globally asymptotically stable, and if the infected steady state exists, then it is globally asymptotically stable for all time delays.
Global stability of HIV infection models with intracellular delays
Ahmed Elaiw,Ismail Hassanien,Shimaa Azoz 대한수학회 2012 대한수학회지 Vol.49 No.4
In this paper, we study the global stability of two mathemat-ical models for human immunodeciency virus (HIV) infection with intra-cellular delays. The rst model is a 5-dimensional nonlinear delay ODEs that describes the interaction of the HIV with two classes of target cells,CD4+ T cells and macrophages taking into account the saturation infec-tion rate. The second model generalizes the rst one by assuming that the infection rate is given by Beddington-DeAngelis functional response. Two time delays are used to describe the time periods between viral entry the two classes of target cells and the production of new virus particles. Lyapunov functionals are constructed and LaSalle-type theorem for delay differential equation is used to establish the global asymptotic stability of the uninfected and infected steady states of the HIV infection models. We have proven that if the basic reproduction number R0 is less than unity, then the uninfected steady state is globally asymptotically stable,and if the infected steady state exists, then it is globally asymptotically stable for all time delays.