The study of the initial phase of the adaptive immune response after first antigen encounter provides essential information on the magnitude and quality of the immune response. This phase is characterized by proliferation and dissemination of T cells in the lymphoid organs. Modeling and identifying the key features of this phenomenon may provide a useful tool for the analysis and prediction of the effects of immunization. This knowledge can be effectively exploited in vaccinology, where it is of interest to evaluate and compare the responses to different vaccine formulations. The objective of this paper is to construct a stochastic model based on branching process theory, for the dissemination network of antigen-specific CD4+ T cells. The d...
Abstract. We propose a stochastic model to explain the long time scale dynamics of Cytotoxic Antigen...
Lymphocytes, comprising of B and T cells, are important members of the adaptive immune system of ve...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
<div><p>The study of the initial phase of the adaptive immune response after first antigen encounter...
The study of the initial phase of the adaptive immune response after first antigen encounter provide...
The study of the initial phase of the adaptive immune response after first antigen encounter provide...
T-cell primary activation is a key event in the initiation of the adaptive immune response. Quantify...
We have constructed a computer model of the cytotoxic T lymphocyte (CTL) response to antigen and the...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
Quantitative understanding of the kinetics of lymphocyte proliferation and death upon activation wit...
[出版社版]The purpose of this paper is to construct a mathematical model to describe immunomechanism aga...
Cell proliferation is the common characteristic of all biological systems. The immune system insures...
<div><p>Cell proliferation is the common characteristic of all biological systems. The immune system...
During an adaptive immune response, lymphocytes proliferate for ve to twenty cell divisions, then st...
International audienceWe analyse a mathematical model of the peripheral CD4(+) T cell population, ba...
Abstract. We propose a stochastic model to explain the long time scale dynamics of Cytotoxic Antigen...
Lymphocytes, comprising of B and T cells, are important members of the adaptive immune system of ve...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
<div><p>The study of the initial phase of the adaptive immune response after first antigen encounter...
The study of the initial phase of the adaptive immune response after first antigen encounter provide...
The study of the initial phase of the adaptive immune response after first antigen encounter provide...
T-cell primary activation is a key event in the initiation of the adaptive immune response. Quantify...
We have constructed a computer model of the cytotoxic T lymphocyte (CTL) response to antigen and the...
Abstract:- We present a simple microscopic model for the clonal expansion of the immune system. We c...
Quantitative understanding of the kinetics of lymphocyte proliferation and death upon activation wit...
[出版社版]The purpose of this paper is to construct a mathematical model to describe immunomechanism aga...
Cell proliferation is the common characteristic of all biological systems. The immune system insures...
<div><p>Cell proliferation is the common characteristic of all biological systems. The immune system...
During an adaptive immune response, lymphocytes proliferate for ve to twenty cell divisions, then st...
International audienceWe analyse a mathematical model of the peripheral CD4(+) T cell population, ba...
Abstract. We propose a stochastic model to explain the long time scale dynamics of Cytotoxic Antigen...
Lymphocytes, comprising of B and T cells, are important members of the adaptive immune system of ve...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...