In this paper we present a comprehensive computational framework within which the effects of chemical signalling factors on growing epithelial tissues can be studied. The method incorporates a vertex-based cell model, in conjunction with a solver for the governing chemical equations. The vertex model provides a natural mesh for the finite element method (FEM), with node movements determined by force laws. The arbitrary Lagrangian-Eulerian formulation is adopted to account for domain movement between iterations. The effects of cell proliferation and junctional rearrangements on the mesh are also examined. By implementing refinements of the mesh we show that the finite element (FE) approximation converges towards an accurate numerical solutio...
Epithelia are sheets of connected cells that are essential across the animal kingdom. Experimental o...
Embryonic epithelia achieve complex morphogenetic movements, including in-plane reshaping, bending a...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
In this paper we present a comprehensive computational framework within which the effects of chemica...
The purpose of this thesis is to develop a vertex model framework that can be used to perform comput...
The exact mechanism controlling cell growth remains a grand challenge in developmental biology and r...
During tissue morphogenesis forces at the cellular level cause deformation of tissues. Through comp...
SummaryBackgroundEpithelial junctional networks assume packing geometries characterized by different...
AbstractThe dynamic behavior of epithelial cell sheets plays a central role during numerous developm...
The development of a multicellular organism, such as a human or an animal, begins with the fertiliza...
<div><p>Geometric and mechanical properties of individual cells and interactions among neighboring c...
BACKGROUND: Epithelial junctional networks assume packing geometries characterized by different cell...
In life science, morphogenesis is the ensemble of biological processes that lead to the emergence of...
The dynamic behaviour of epithelial cell sheets plays a central role during development, growth, dis...
Understanding the mechanisms regulating development requires a quantitative characterization of cell...
Epithelia are sheets of connected cells that are essential across the animal kingdom. Experimental o...
Embryonic epithelia achieve complex morphogenetic movements, including in-plane reshaping, bending a...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...
In this paper we present a comprehensive computational framework within which the effects of chemica...
The purpose of this thesis is to develop a vertex model framework that can be used to perform comput...
The exact mechanism controlling cell growth remains a grand challenge in developmental biology and r...
During tissue morphogenesis forces at the cellular level cause deformation of tissues. Through comp...
SummaryBackgroundEpithelial junctional networks assume packing geometries characterized by different...
AbstractThe dynamic behavior of epithelial cell sheets plays a central role during numerous developm...
The development of a multicellular organism, such as a human or an animal, begins with the fertiliza...
<div><p>Geometric and mechanical properties of individual cells and interactions among neighboring c...
BACKGROUND: Epithelial junctional networks assume packing geometries characterized by different cell...
In life science, morphogenesis is the ensemble of biological processes that lead to the emergence of...
The dynamic behaviour of epithelial cell sheets plays a central role during development, growth, dis...
Understanding the mechanisms regulating development requires a quantitative characterization of cell...
Epithelia are sheets of connected cells that are essential across the animal kingdom. Experimental o...
Embryonic epithelia achieve complex morphogenetic movements, including in-plane reshaping, bending a...
Morphogenesis - the generation of biological shape and form - is fascinating, and its study promises...