In this paper we compare two alternative theoretical approaches for simulating the growth of cell aggregates in vitro: individual cell (agent)-based models and continuum models. We show by a quantitative analysis of both a biophysical agent-based and a continuum mechanical model that for densely packed aggregates the expansion of the cell population is dominated by cell proliferation controlled by mechanical stress. The biophysical agent-based model introduced earlier (Drasdo and Hoehme in Phys Biol 2:133-147, 2005) approximates each cell as an isotropic, homogeneous, elastic, spherical object parameterised by measurable biophysical and cell-biological quantities and has been shown by comparison to experimental findings to explain the growt...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
Multiscale modeling is emerging as one of the key challenges in mathematical biology. However, the r...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
Existing comparative studies between individual-based models of growing cell populations and their c...
We present a detailed experimental data set describing a tissue growth experiment where a population...
Continuum models for the spatial dynamics of growing cell populations have been widely used to inves...
Continuum, partial differential equation models are often used to describe the collective motion of ...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
Continuum, partial differential equation models are often used to describe the collective motion of ...
Based on a cellular automaton model the growth kinetics and the critical surface dynamics of cell mo...
Continuum, partial differential equation models are often used to describe the collective motion of ...
Existing studies comparing individual-based models of growing cell populations and their continuum c...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
Individual-based models describing the migration and proliferation of a population of cells frequent...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
Multiscale modeling is emerging as one of the key challenges in mathematical biology. However, the r...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
Existing comparative studies between individual-based models of growing cell populations and their c...
We present a detailed experimental data set describing a tissue growth experiment where a population...
Continuum models for the spatial dynamics of growing cell populations have been widely used to inves...
Continuum, partial differential equation models are often used to describe the collective motion of ...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
Continuum, partial differential equation models are often used to describe the collective motion of ...
Based on a cellular automaton model the growth kinetics and the critical surface dynamics of cell mo...
Continuum, partial differential equation models are often used to describe the collective motion of ...
Existing studies comparing individual-based models of growing cell populations and their continuum c...
The coordinated behaviour of populations of cells plays a central role in tissue growth and renewal....
Individual-based models describing the migration and proliferation of a population of cells frequent...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
Multiscale modeling is emerging as one of the key challenges in mathematical biology. However, the r...