Add to ORKGWe consider the mean-field approximation of an individual-based model describing cell motility and proliferation, which incorporates the volume exclusion principle, the go-or-grow hypothesis and an explicit cell cycle delay. To utilise the framework of on-lattice agent-based models, we make the assumption that cells enter mitosis only if they can secure an additional site for the daughter cell, in which case they occupy two lattice sites until the completion of mitosis. The mean-field model is expressed by a system of delay differential equations and includes variables such as the number of motile cells, proliferating cells, reserved sites and empty sites. We prove the convergence of biologically feasible solutions: eventually all available...
Continuum, partial differential equation models are often used to describe the collective motion of ...
Abstract In a chemostat, transient oscillations in cell number density are often experi-mentally obs...
Cell migration and growth are essential components of the development of multicellular organisms. Th...
Here we study how the structure and growth of a cellular population vary with the distribution of ma...
The Glazier–Graner–Hogeweg (GGH) model is a cellular automata framework for representing the time ev...
In this paper we compare two alternative theoretical approaches for simulating the growth of cell ag...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
The <i>Glazier–Graner–Hogeweg</i> (GGH) model is a cellular automata framework for representing the ...
We present a unified model for the growth of a population of cells. We propose that sigmoidal growth...
We study a model of cell segregation in a population composed of two cell types. Starting from a mod...
Abstract. In this paper, we investigate a linear population model of cells that are capable of simul...
Biological systems involving proliferation, migration and death are observed across all scales. For ...
We consider discrete agent-based models known as a cellular automata (CA). CA models are lattice-bas...
We develop a structured population model for the maturation process of stem cells in the form of a s...
Cell migration and growth are essential components of the development of multicellular organisms. Th...
Continuum, partial differential equation models are often used to describe the collective motion of ...
Abstract In a chemostat, transient oscillations in cell number density are often experi-mentally obs...
Cell migration and growth are essential components of the development of multicellular organisms. Th...
Here we study how the structure and growth of a cellular population vary with the distribution of ma...
The Glazier–Graner–Hogeweg (GGH) model is a cellular automata framework for representing the time ev...
In this paper we compare two alternative theoretical approaches for simulating the growth of cell ag...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
The <i>Glazier–Graner–Hogeweg</i> (GGH) model is a cellular automata framework for representing the ...
We present a unified model for the growth of a population of cells. We propose that sigmoidal growth...
We study a model of cell segregation in a population composed of two cell types. Starting from a mod...
Abstract. In this paper, we investigate a linear population model of cells that are capable of simul...
Biological systems involving proliferation, migration and death are observed across all scales. For ...
We consider discrete agent-based models known as a cellular automata (CA). CA models are lattice-bas...
We develop a structured population model for the maturation process of stem cells in the form of a s...
Cell migration and growth are essential components of the development of multicellular organisms. Th...
Continuum, partial differential equation models are often used to describe the collective motion of ...
Abstract In a chemostat, transient oscillations in cell number density are often experi-mentally obs...
Cell migration and growth are essential components of the development of multicellular organisms. Th...