Pages that link to "Item:Q1013286"

The following pages link to Asymmetric division of activated latently infected cells may explain the decay kinetics of the HIV-1 latent reservoir and intermittent viral blips (Q1013286):

Displaying 50 items.

• Dynamics of an HIV model with multiple infection stages and treatment with different drug classes (Q281122) (← links)
• Stochastic modelling of viral blips in HIV-1-infected patients: effects of inhomogeneous density fluctuations (Q300906) (← links)
• Stability and Hopf bifurcation in a delayed HIV infection model with general incidence rate and immune impairment (Q304700) (← links)
• Backward bifurcations, turning points and rich dynamics in simple disease models (Q329371) (← links)
• A model of HIV-1 infection with two time delays: mathematical analysis and comparison with patient data (Q433680) (← links)
• Immuno-modulatory strategies for reduction of HIV reservoir cells (Q530511) (← links)
• Conflict and accord of optimal treatment strategies for HIV infection within and between hosts (Q669199) (← links)
• Impact of latently infected cells on strain archiving within HIV hosts (Q692472) (← links)
• Studying HIV latency by modeling the interaction between HIV proteins and the innate immune response (Q739663) (← links)
• Stochastic population switch may explain the latent reservoir stability and intermittent viral blips in HIV patients on suppressive therapy (Q739681) (← links)
• Modeling the role of macrophages in HIV persistence during antiretroviral therapy (Q782891) (← links)
• Modeling HIV persistence, the latent reservoir, and viral blips (Q1625882) (← links)
• Viral dynamics of an HIV model with latent infection incorporating antiretroviral therapy (Q1628015) (← links)
• Mathematical analysis of a class of HIV infection models of \(\mathrm{CD4}^{+}\) T-cells with combined antiretroviral therapy (Q1636848) (← links)
• Qualitative analysis of a generalized virus dynamics model with both modes of transmission and distributed delays (Q1656186) (← links)
• Dynamics of the HIV infection under antiretroviral therapy: a cellular automata approach (Q1673233) (← links)
• Analysis of an HIV infection model incorporating latency age and infection age (Q1714887) (← links)
• Andronov-Hopf bifurcation and sensitivity analysis of a time-delay HIV model with logistic growth and antiretroviral treatment (Q1726186) (← links)
• A stochastic HIV infection model with latent infection and antiretroviral therapy (Q1727140) (← links)
• Global dynamics of a latent HIV infection model with general incidence function and multiple delays (Q1755939) (← links)
• Latently infected cell activation: a way to reduce the size of the HIV reservoir? (Q1758088) (← links)
• Mathematical analysis of an HIV model with latent reservoir, delayed CTL immune response and immune impairment (Q1981094) (← links)
• Global dynamics and cost-effectiveness analysis of HIV pre-exposure prophylaxis and structured treatment interruptions based on a multi-scale model (Q1985085) (← links)
• Dynamical analysis of antigen-driven t-cell infection model with multiple delays (Q2011097) (← links)
• Influence of raltegravir intensification on viral load and 2-LTR dynamics in HIV patients on suppressive antiretroviral therapy (Q2013422) (← links)
• Dynamics of a new HIV model with the activation status of infected cells (Q2030254) (← links)
• A delay model for persistent viral infections in replicating cells (Q2030265) (← links)
• Modeling within-host viral dynamics: the role of CTL immune responses in the evolution of drug resistance (Q2033746) (← links)
• The effects of CTL immune response on HIV infection model with potent therapy, latently infected cells and cell-to-cell viral transmission (Q2045491) (← links)
• Andronov-Hopf and Neimark-Sacker bifurcations in time-delay differential equations and difference equations with applications to models for diseases and animal populations (Q2078138) (← links)
• Spatiotemporal dynamics for a diffusive HIV-1 infection model with distributed delays and CTL immune response (Q2125204) (← links)
• Dynamics of an HIV model with cytotoxic T-lymphocyte memory (Q2125836) (← links)
• Dynamics of an HIV infection model with virus diffusion and latently infected cell activation (Q2147507) (← links)
• Optimal control in HIV chemotherapy with termination viral load and latent reservoir (Q2160595) (← links)
• Stochastic HIV model coupled with pharmacokinetics and drug adherence may explain intermittent viral blips (Q2161448) (← links)
• Asymptotical profiles of a viral infection model with multi-target cells and spatial diffusion (Q2203739) (← links)
• Dynamics and asymptotical profiles of an age-structured viral infection model with spatial diffusion (Q2279467) (← links)
• Spatial and temporal dynamics of a viral infection model with two nonlocal effects (Q2325166) (← links)
• Stochastic modeling and simulation of viral evolution (Q2417498) (← links)
• Global exponential stability of a delayed HIV infection model with a nonlinear incidence rate (Q2657461) (← links)
• Towards a new combination therapy with vectored immunoprophylaxis for HIV: modeling ``Shock and kill'' strategy (Q2681860) (← links)
• A new model describing the development of memory/latency during HIV infection (Q2790299) (← links)
• Analysis of HIV models with two time delays (Q3300908) (← links)
• An HIV model with age-structured latently infected cells (Q3300917) (← links)
• Mathematical analysis of an HIV latent infection model including both virus-to-cell infection and cell-to-cell transmission (Q3304385) (← links)
• Dissociation of HIV-1 from follicular dendritic cells during HAART: Mathematical analysis (Q4488625) (← links)
• Modeling Pharmacodynamics on HIV Latent Infection: Choice of Drugs is Key to Successful Cure via Early Therapy (Q4588165) (← links)
• BISTABILITY ANALYSIS OF AN HIV MODEL WITH IMMUNE RESPONSE (Q4684140) (← links)
• GLOBAL PROPERTIES FOR A CLASS OF LATENT HIV INFECTION DYNAMICS MODEL WITH CTL IMMUNE RESPONSE (Q4917260) (← links)
• Analysis of an HIV model with post-treatment control (Q4964039) (← links)