It is observed in vitro and in vivo that when two populations of different types of cells come near to each other, the rate of proliferation of most cells decreases. This phenomenon is often called contact inhibition of growth between two cells. In this paper, we consider a simplified 1-dimensional PDEmodel for normal and abnormal cells, motivated by the paper by Chaplain, Graziano and Preziosi ([5]). We show that if the two populations are initially segregated, then they remain segregated due to the contact inhibition mechanism. In this case the system of PDE's can be formulated as a free boundary problem
Cancer is a complex phenomenon, and the sheer variation in behaviour across different types renders ...
International audienceIn this paper, a free boundary problem for cell protrusion formation is studie...
Funding: UK EPSRC grant no. EP/N014642/1.We consider a continuum mechanical model of cell invasion t...
Partial differential equations describing the dynamics of cell population densities from a fluid mec...
This paper proposes a model for the growth of two interacting populations of cells that do not mix. ...
We consider a tumor growth model involving a nonlinear system of partial differential equations whic...
We consider a tumor growth model involving a nonlinear system of partial differential equations whic...
We consider a simplified 1-dimensional PDE-model describing the effect of contact inhibition in grow...
Control of cell proliferation is a fundamental aspect of tissue physiology central to morphogenesis,...
In this work we analyse a one-dimensional, cell-based model of an epithelial sheet. In the model, ce...
In this paper we present an individual-based mechanical model that describes the dynamics of two con...
In this paper we present an individual-based mechanical model that describes the dynamics of two con...
© European Mathematical Society 2019 Using formal asymptotic methods we derive a free boundary probl...
Cancer is a complex phenomenon, and the sheer variation in behaviour across different types renders ...
International audienceIn this paper, a free boundary problem for cell protrusion formation is studie...
Funding: UK EPSRC grant no. EP/N014642/1.We consider a continuum mechanical model of cell invasion t...
Partial differential equations describing the dynamics of cell population densities from a fluid mec...
This paper proposes a model for the growth of two interacting populations of cells that do not mix. ...
We consider a tumor growth model involving a nonlinear system of partial differential equations whic...
We consider a tumor growth model involving a nonlinear system of partial differential equations whic...
We consider a simplified 1-dimensional PDE-model describing the effect of contact inhibition in grow...
Control of cell proliferation is a fundamental aspect of tissue physiology central to morphogenesis,...
In this work we analyse a one-dimensional, cell-based model of an epithelial sheet. In the model, ce...
In this paper we present an individual-based mechanical model that describes the dynamics of two con...
In this paper we present an individual-based mechanical model that describes the dynamics of two con...
© European Mathematical Society 2019 Using formal asymptotic methods we derive a free boundary probl...
Cancer is a complex phenomenon, and the sheer variation in behaviour across different types renders ...
International audienceIn this paper, a free boundary problem for cell protrusion formation is studie...
Funding: UK EPSRC grant no. EP/N014642/1.We consider a continuum mechanical model of cell invasion t...