Abstract. The immune response to a pathogen has two basic features. The first is the expansion of a few pathogen-specific cells to form a population large enough to control the pathogen. The second is the process of differentiation of cells from an initial naive phenotype to an effector phenotype which controls the pathogen, and subsequently to a memory phenotype that is maintained and responsible for long-term protection. The expansion and the differentiation have been considered largely independently. Changes in cell populations are typically described using ecologically based ordinary differential equation models. In contrast, differentiation of single cells is studied within systems biology and is frequently modeled by considering chang...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
Abstract: Disease affects populations in two major and complementary ways: at the individual level, ...
The paper presents a review of recent developments of hybrid discrete-continuous models in cell popu...
The functioning of the immune system involves tightly regulated proliferation, differentiation and d...
140 p.In modelling human immune system, simple mathematical models, such as ordinary differential eq...
Cell-based mathematical models have previously been developed to simulate the immune system in respo...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
How do we recast the effects of molecular mimicry and genetic alterations affecting the T-cell respo...
Over the past few years, it has been increasingly recognized that stochastic mechanisms play a key r...
Communicating is crucial for cells to coordinate their behaviors. Immunological processes, involving...
In this paper we present the first step towards the development of a mathematical model of human imm...
The advent of experimental techniques for the time-course monitoring of gene expression at the singl...
International audienceThe advent of experimental techniques for the time-course monito...
The acute inflammatory response is the non-specific and immediate reaction of the body to pathogenic...
Mathematical and computational models are increasingly used in this century to help modeling of livi...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
Abstract: Disease affects populations in two major and complementary ways: at the individual level, ...
The paper presents a review of recent developments of hybrid discrete-continuous models in cell popu...
The functioning of the immune system involves tightly regulated proliferation, differentiation and d...
140 p.In modelling human immune system, simple mathematical models, such as ordinary differential eq...
Cell-based mathematical models have previously been developed to simulate the immune system in respo...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
How do we recast the effects of molecular mimicry and genetic alterations affecting the T-cell respo...
Over the past few years, it has been increasingly recognized that stochastic mechanisms play a key r...
Communicating is crucial for cells to coordinate their behaviors. Immunological processes, involving...
In this paper we present the first step towards the development of a mathematical model of human imm...
The advent of experimental techniques for the time-course monitoring of gene expression at the singl...
International audienceThe advent of experimental techniques for the time-course monito...
The acute inflammatory response is the non-specific and immediate reaction of the body to pathogenic...
Mathematical and computational models are increasingly used in this century to help modeling of livi...
We present a new mathematical model based on coupled reaction-diffusion partial differential equati...
Abstract: Disease affects populations in two major and complementary ways: at the individual level, ...
The paper presents a review of recent developments of hybrid discrete-continuous models in cell popu...
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