Mathematical biology of HIV infections: Antigenic variation and diversity threshold

On the antigenic diversity threshold model for AIDS, A new approach for solving a model for HIV infection of \(\mathrm{CD}4^{+}\) T-cells arising in mathematical chemistry using wavelets, A numerical comparison for a discrete HIV infection of CD4\(^{+}\) T-cell model derived from nonstandard numerical scheme, Dynamics of a stochastic cell-to-cell HIV-1 model with distributed delay, Antigenic diversity thresholds and hazard functions, Modelling the Adaptive Immune Response in HIV Infection with Three Saturated Rates and Therapy, Gene therapy of T helper cells in HIV infection: Mathematical model of the criteria for clinical effect, A numerical approach to solve the model for HIV infection of CD4\(^{+}\)T cells, A fractional calculus model for HIV dynamics: real data, parameter estimation and computational strategies, A model for coupling within-host and between-host dynamics in an infectious disease, Viral diversity limits immune diversity in asymptomatic phase of HIV infection, A numerical method for the solutions of the HIV infection model of CD4+T-cells, Optimizing within-host viral fitness: infected cell lifespan and virion production rate, Discrete-Time System of an Intracellular Delayed HIV Model with CTL Immune Response, A study of latency, reactivation and apoptosis throughout HIV pathogenesis, Solving a fractional order model of HIV infection of \(CD4^{+}\) T cells, Solving a system of fractional partial differential equations arising in the model of HIV infection of \(\mathrm{CD4}^{+}\) cells and attractor one-dimensional Keller-Segel equations, On analysis of fractional order HIV infection model with the adaptive immune response under Caputo operator, From within host dynamics to the epidemiology of infectious disease: scientific overview and challenges, Stability Analysis and Uniform Persistence of the Dynamics of Cytotoxic Cells with Crowley-Martin Functional Response, A new optimal control technique for solution of HIV infection model, Antigenic cooperation in viral populations: transformation of functions of intra-host viral variants, Mathematical analysis of a general class of ordinary differential equations coming from within-hosts models of malaria with immune effectors, On HIV Model with Adaptive Immune Response, Two Saturated Rates and Therapy, Global properties of a delayed HIV infection model with CTL immune response, Local immunodeficiency: role of neutral viruses, A controlled treatment strategy applied to HIV immunology model, A multiscale model of virus pandemic: Heterogeneous interactive entities in a globally connected world, On the numerical solution of the model for HIV infection of \(CD4^{+}\) T cells, REVIEW OF HIV MODELS: THE ROLE OF THE NATURAL IMMUNE RESPONSE AND IMPLICATIONS FOR TREATMENT, Shifted Boubaker Lagrangian approach for solving biological systems, Monotonicity of the number of passages in linear chains and of the basis reproduction number in epidemic models, Analytical approach to study a mathematical model of CD4+T-cells, The role of CD4 T cells in immune system activation and viral reproduction in a simple model for HIV infection, Analysis and optimal control of an intracellular delayed HIV model with CTL immune response, Neuro-optimized numerical treatment of HIV infection model, On the modeling of long-term HIV-1 infection dynamics, The Laplace Adomian decomposition method for solving a model for HIV infection of \(CD4^{+}T\) cells, Numerical treatment of the model for HIV infection of CD4\(^{+}\)T cells by using multistep Laplace Adomian decomposition method, Modeling within-host viral dynamics: the role of CTL immune responses in the evolution of drug resistance, Mathematical Analysis of the Dynamics of HIV Infection with CTL Immune Response and Cure Rate, Dynamics of HIV infection of CD4\(^ +\) T cells, Coinfection and superinfection in RNA virus populations: A selection--mutation model, Optimal controls of the highly active antiretroviral therapy, Spatial Aspects of HIV Infection, Dynamics of co-infection with M. tuberculosis and HIV-1, A delay-differential equation model of HIV infection of \(\text{CD}4^+\) T-cells, Local immunodeficiency: minimal networks and stability, Early HIV infection in vivo: branching-process model for studying timing of immune reponses and drug therapy, A Scalable Engineering Combination Therapies for Evolutionary Dynamic of Macrophages, A model of primary HIV-1 infection, Unnamed Item, Non-linear dynamics models characterizing long-term virological data from AIDS clinical trials, Optimal control of an HIV model with a trilinear antibody growth function

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