Add to ORKGThe paper proposes a numerical model for T-cell dynamics, based on a reaction-diffusion problem originated by adding a diffusion term in the model introduced in [1] and based on ordinary differential equations. The model here introduced is specifically intended to provide a mathematical description of the homeostasis of T-cells, mainly due to a quorum-sensing mechanism. The introduced reaction-diffusion problem is then discretized by means of a finite difference numerical scheme. Numerical experiments supporting the approach are provided
Mathematical modeling is a powerful technique to address key questions and paradigms in a variety of...
This chapter discusses the biology of T-cell receptor (TCR) activation, proliferation, and homeostas...
International audienceThe down-regulation of CD3 protein present on the surface of a T-cell triggers...
The paper proposes a numerical model for T-cell dynamics, based on a reaction-diffusion problem orig...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
International audienceThe formation and development of blood cells is a very complex process, called...
Mathematical modeling of reaction-diffusion system in a biological cellis an important and difficult...
Development of an organism from a single celled zygote is a highly complicated process which consist...
International audienceIn this paper, we propose a mathematical model describing the dynamics of hema...
The Phd thesis is devoted to the numerical and mathematical analysis of systems of partial different...
In this paper, we will investigate the effect of diffusion, which is ubiquitous in nature, on the im...
The present models and simulation algorithms of intracellular stochastic kinetics are usually based ...
We construct a model for cell proliferation with differentiation into different cell types, allowing...
Mathematical modeling is a powerful technique to address key questions and paradigms in a variety of...
This chapter discusses the biology of T-cell receptor (TCR) activation, proliferation, and homeostas...
International audienceThe down-regulation of CD3 protein present on the surface of a T-cell triggers...
The paper proposes a numerical model for T-cell dynamics, based on a reaction-diffusion problem orig...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
International audienceThe formation and development of blood cells is a very complex process, called...
Mathematical modeling of reaction-diffusion system in a biological cellis an important and difficult...
Development of an organism from a single celled zygote is a highly complicated process which consist...
International audienceIn this paper, we propose a mathematical model describing the dynamics of hema...
The Phd thesis is devoted to the numerical and mathematical analysis of systems of partial different...
In this paper, we will investigate the effect of diffusion, which is ubiquitous in nature, on the im...
The present models and simulation algorithms of intracellular stochastic kinetics are usually based ...
We construct a model for cell proliferation with differentiation into different cell types, allowing...
Mathematical modeling is a powerful technique to address key questions and paradigms in a variety of...
This chapter discusses the biology of T-cell receptor (TCR) activation, proliferation, and homeostas...
International audienceThe down-regulation of CD3 protein present on the surface of a T-cell triggers...