Add to ORKGThe aim of this paper is to carry out a mathematical analysis of a system of ordinary differential equations introduced by R. Lev Bar-Or to model the interactions between T cells and macrophages. Under certain restrictions on the parameters of the model, theorems are proved about the number of stationary solutions and their stability. In some cases the existence of periodic solutions or heteroclinic cycles is ruled out. Evidence is presented that the same biological phenomena could be equally well described by a simpler model
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
This work deals with the qualitative analysis of a nonlinear integro-differential model of immune co...
We develop a mathematical model to examine the role of helper and cytotoxic T cells in an anti-tumou...
The aim of this paper is to prove results about the existence and stability of multiple steady state...
How do we recast the effects of molecular mimicry and genetic alterations affecting the T-cell respo...
In this paper we present the first step towards the development of a mathematical model of human imm...
In this paper we present a model of the macrophage T lymphocyte interactions that generate an anti-t...
Replicating oncolytic viruses provide promising treatment strategies against cancer. However, the su...
Tuberculosis (TB) remains a public health problem in the world, because of the increasing prevalence...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
Mathematical and computational models are increasingly used in this century to help modeling of livi...
In this study, the mathematical model examined the dynamics between pathogen and specific immune sys...
In a mathematical model of the cellular immune response we investigate immune reactions to tumors th...
We construct a mathematical model of kinetic type in order to describe the immune system interaction...
In this paper, we give an overview of our recent results concerning the mathematical modelling of au...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
This work deals with the qualitative analysis of a nonlinear integro-differential model of immune co...
We develop a mathematical model to examine the role of helper and cytotoxic T cells in an anti-tumou...
The aim of this paper is to prove results about the existence and stability of multiple steady state...
How do we recast the effects of molecular mimicry and genetic alterations affecting the T-cell respo...
In this paper we present the first step towards the development of a mathematical model of human imm...
In this paper we present a model of the macrophage T lymphocyte interactions that generate an anti-t...
Replicating oncolytic viruses provide promising treatment strategies against cancer. However, the su...
Tuberculosis (TB) remains a public health problem in the world, because of the increasing prevalence...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
Mathematical and computational models are increasingly used in this century to help modeling of livi...
In this study, the mathematical model examined the dynamics between pathogen and specific immune sys...
In a mathematical model of the cellular immune response we investigate immune reactions to tumors th...
We construct a mathematical model of kinetic type in order to describe the immune system interaction...
In this paper, we give an overview of our recent results concerning the mathematical modelling of au...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
This work deals with the qualitative analysis of a nonlinear integro-differential model of immune co...
We develop a mathematical model to examine the role of helper and cytotoxic T cells in an anti-tumou...