The paper is devoted to a nonlocal reaction-diffusion equation describing the development of viral infection in tissue, taking into account virus distribution in the space of genotypes, the antiviral immune response, and natural genotype-dependent virus death. It is shown that infection propagates as a reaction-diffusion wave. In some particular cases, the 2D problem can be reduced to a 1D problem by separation of variables, allowing for proof of wave existence and stability. In general, this reduction provides an approximation of the 2D problem by a 1D problem. The analysis of the reduced problem allows us to determine how viral load and virulence depend on genotype distribution, the strength of the immune response, and the level of immuni...
A new model of viral infection spreading in cell cultures is proposed taking into account virus muta...
Replication of viruses in living tissues and cell cultures is a “number game” involving complex biol...
International audienceSpreading of viral infection in the tissues such as lymph nodes or spleen depe...
The paper is devoted to a nonlocal reaction-diffusion equation describing the development of viral i...
Virus density distribution as a function of genotype considered as a continuous variable and of time...
In this work, we develop a mathematical framework for predicting and quantifying virus diversity evo...
This work is devoted to the investigation of virus quasi-species evolution and diversification due t...
International audienceIn this work, we develop a mathematical framework for predicting and quantifyi...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
This work is devoted to the study of persistence and evolution of two viruses in the host organism t...
International audienceThis work is devoted to the investigation of virus quasi-species evolution and...
International audienceThis paper is devoted to the study of persistence and evolution of two viruses...
This work is devoted to the investigation of virus quasi-species evolution and diversification due t...
A new model of viral infection spreading in cell cultures is proposed taking into account virus muta...
Replication of viruses in living tissues and cell cultures is a “number game” involving complex biol...
International audienceSpreading of viral infection in the tissues such as lymph nodes or spleen depe...
The paper is devoted to a nonlocal reaction-diffusion equation describing the development of viral i...
Virus density distribution as a function of genotype considered as a continuous variable and of time...
In this work, we develop a mathematical framework for predicting and quantifying virus diversity evo...
This work is devoted to the investigation of virus quasi-species evolution and diversification due t...
International audienceIn this work, we develop a mathematical framework for predicting and quantifyi...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
This work is devoted to the study of persistence and evolution of two viruses in the host organism t...
International audienceThis work is devoted to the investigation of virus quasi-species evolution and...
International audienceThis paper is devoted to the study of persistence and evolution of two viruses...
This work is devoted to the investigation of virus quasi-species evolution and diversification due t...
A new model of viral infection spreading in cell cultures is proposed taking into account virus muta...
Replication of viruses in living tissues and cell cultures is a “number game” involving complex biol...
International audienceSpreading of viral infection in the tissues such as lymph nodes or spleen depe...