Add to ORKGIn this work, we propose and investigate a delay cell population model of hepatitis C virus (HCV) infection with cellular proliferation, absorption effect and a nonlinear incidence function. First of all, after having shown the existence of the local solutions of our model, we show the existence of the global solutions and positivity. Moreover, we determine the uninfected equilibrium point and the basic reproduction rate R0, which is a threshold number in mathematical epidemiology. After showing the existence and uniqueness of the infected equilibrium point, we proceed to the study of the local and global stability of this equilibrium. We show that if R0 < 1, the uninfected equilibrium point is globally asymptotically stable, which mean...
We formulate and systematically study the global dynamics of a simple model of hepatitis B virus in ...
Abstract We investigate general HIV infection models with three types of infected cells: latently in...
In this paper, a delayed viral dynamical model that considers two different transmission methods of ...
AbstractIt is well known that the mathematical models provide very important information for the res...
Abstract The dynamics of a general in-host model with intracellular delay is studied. The model can ...
A hepatitis B virus infection model with time delay is discussed. By analyzing the corresponding cha...
A hepatitis B virus infection model with time delay is discussed. By analyzing the corresponding cha...
Studies of hepatitis C virus (HCV) infection amongst injecting drug users (IDUs) have suggested that...
In this paper, the global stability of a delayed HIV model with saturated infection rate infection i...
In this paper, the global stability of a delayed HIV model with saturated infection rate infection i...
AbstractIt is well known that the mathematical models provide very important information for the res...
An epidemiological model is proposed and studied to understand the transmission dynamics and prevale...
The effect of antiviral therapy during Hepatitis C Virus (HCV) infection is the focus of this study....
In this paper, we study the global dynamics of a viral infection model with a latent period. The mod...
We formulate and systematically study the global dynamics of a simple model of hepatitis B virus in ...
We formulate and systematically study the global dynamics of a simple model of hepatitis B virus in ...
Abstract We investigate general HIV infection models with three types of infected cells: latently in...
In this paper, a delayed viral dynamical model that considers two different transmission methods of ...
AbstractIt is well known that the mathematical models provide very important information for the res...
Abstract The dynamics of a general in-host model with intracellular delay is studied. The model can ...
A hepatitis B virus infection model with time delay is discussed. By analyzing the corresponding cha...
A hepatitis B virus infection model with time delay is discussed. By analyzing the corresponding cha...
Studies of hepatitis C virus (HCV) infection amongst injecting drug users (IDUs) have suggested that...
In this paper, the global stability of a delayed HIV model with saturated infection rate infection i...
In this paper, the global stability of a delayed HIV model with saturated infection rate infection i...
AbstractIt is well known that the mathematical models provide very important information for the res...
An epidemiological model is proposed and studied to understand the transmission dynamics and prevale...
The effect of antiviral therapy during Hepatitis C Virus (HCV) infection is the focus of this study....
In this paper, we study the global dynamics of a viral infection model with a latent period. The mod...
We formulate and systematically study the global dynamics of a simple model of hepatitis B virus in ...
We formulate and systematically study the global dynamics of a simple model of hepatitis B virus in ...
Abstract We investigate general HIV infection models with three types of infected cells: latently in...
In this paper, a delayed viral dynamical model that considers two different transmission methods of ...