A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collection of cells is undertaken. The study focuses on the mechanical aspects of the tissue, in order to separate the passive mechanical response of the model from active effects such as cell-growth and cell division. Issues which arise when implementing these models are described, and a series of numerical mechanical experiments is performed. It is shown that discrete tissues modelled this way typically exhibit elastic-plastic behaviour under slow compression, and act as a brittle linear elastic solid under slow tension. Both overlapping spheres and Voronoi-tessellation-based models are examined, and the effect of different cell-cell interaction for...
Constitutive models for the mechanics of soft tissues are typically constructed by fitting phenomeno...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
We propose a three dimensional mechanical model of embryonic tissue dynamics. Mechanically coupled a...
A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collectio...
The objective of this project is to investigate the strain-rate dependent mechanical behaviour of si...
The biomechanical modeling of growing tissues has recently become an area of intense interest. In pa...
Mechanical stimuli are fundamental in the development of organs and tissues, their growth, regenerat...
AbstractWe present a mechanistic hybrid continuum-discrete model to simulate the dynamics of epithel...
The understanding of morphogenesis in living organisms has been renewed by tremendous progress in ex...
Cells and tissues exhibit complex mechanical behaviour, including large deformations, migration, gro...
Understanding the biomechanical properties and the effect of biomechanical force on epithelial cells...
This paper presents a framework for modelling biological tissues based on discrete particles. Cell c...
AbstractConstitutive models are needed to relate the active and passive mechanical properties of cel...
Mechanical heterogeneity in biological tissues, in particular stiffness, can be used to distinguish ...
In this work we use a computational cell-based model to study the influence of the mechanical proper...
Constitutive models for the mechanics of soft tissues are typically constructed by fitting phenomeno...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
We propose a three dimensional mechanical model of embryonic tissue dynamics. Mechanically coupled a...
A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collectio...
The objective of this project is to investigate the strain-rate dependent mechanical behaviour of si...
The biomechanical modeling of growing tissues has recently become an area of intense interest. In pa...
Mechanical stimuli are fundamental in the development of organs and tissues, their growth, regenerat...
AbstractWe present a mechanistic hybrid continuum-discrete model to simulate the dynamics of epithel...
The understanding of morphogenesis in living organisms has been renewed by tremendous progress in ex...
Cells and tissues exhibit complex mechanical behaviour, including large deformations, migration, gro...
Understanding the biomechanical properties and the effect of biomechanical force on epithelial cells...
This paper presents a framework for modelling biological tissues based on discrete particles. Cell c...
AbstractConstitutive models are needed to relate the active and passive mechanical properties of cel...
Mechanical heterogeneity in biological tissues, in particular stiffness, can be used to distinguish ...
In this work we use a computational cell-based model to study the influence of the mechanical proper...
Constitutive models for the mechanics of soft tissues are typically constructed by fitting phenomeno...
The quantitative study of cell mechanics is of paramount interest, since it regulates the behaviour ...
We propose a three dimensional mechanical model of embryonic tissue dynamics. Mechanically coupled a...