Understanding how cells proliferate, migrate and die in various environments is essential in determining how organisms develop and repair themselves. Continuum mathematical models, such as the logistic equation and the Fisher–Kolmogorov equation, can describe the global characteristics observed in commonly used cell biology assays, such as proliferation and scratch assays. However, these continuum models do not account for single-cell-level mechanics observed in high-throughput experiments. Mathematical modelling frameworks that represent individual cells, often called agent-based models, can successfully describe key single-cell-level features of these assays but are computationally infeasible when dealing with large populations. In this w...
Scratch assays are routinely used to study collective cell behaviour in vitro. Typical experimental ...
Stochastic individual-based mathematical models are attractive for modelling biological phenomena be...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
Scratch assays are routinely used to study the collective spreading of cell populations. In general,...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
In this paper we compare two alternative theoretical approaches for simulating the growth of cell ag...
Collective cell spreading takes place in spatially continuous environments, yet it is often modelled...
Highlights - New lattice-free stochastic model of collective cell migration with an arbitrary number...
Cell proliferation assays are routinely used to study collective cell behaviour, and can be interpre...
Individual-based models describing the migration and proliferation of a population of cells frequent...
Fluorescent cell cycle labelling in cell biology experiments provides real time information about th...
Multiscale mathematical modelling is one of the major driving forces behind the systems biology revo...
Birth–death–movement processes, modulated by interactions between individuals, are fundamental to ma...
Scratch assays are routinely used to study collective cell behaviour in vitro. Typical experimental ...
Stochastic individual-based mathematical models are attractive for modelling biological phenomena be...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
Scratch assays are routinely used to study the collective spreading of cell populations. In general,...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
Two-dimensional collective cell migration assays are used to study cancer and tissue repair. These a...
In this paper we compare two alternative theoretical approaches for simulating the growth of cell ag...
Collective cell spreading takes place in spatially continuous environments, yet it is often modelled...
Highlights - New lattice-free stochastic model of collective cell migration with an arbitrary number...
Cell proliferation assays are routinely used to study collective cell behaviour, and can be interpre...
Individual-based models describing the migration and proliferation of a population of cells frequent...
Fluorescent cell cycle labelling in cell biology experiments provides real time information about th...
Multiscale mathematical modelling is one of the major driving forces behind the systems biology revo...
Birth–death–movement processes, modulated by interactions between individuals, are fundamental to ma...
Scratch assays are routinely used to study collective cell behaviour in vitro. Typical experimental ...
Stochastic individual-based mathematical models are attractive for modelling biological phenomena be...
Invasion waves of cells play an important role in development, disease and repair. Standard discrete...