We consider a continuum mathematical model of biological tissue formation inspired by recent experiments describing thin tissue growth in 3D-printed bioscaffolds. The continuum model, which we call the substrate model, involves a partial differential equation describing the density of tissue, u^ (x^ , t^) that is coupled to the concentration of an immobile extracellular substrate, s^ (x^ , t^). Cell migration is modelled with a nonlinear diffusion term, where the diffusive flux is proportional to s^ , while a logistic growth term models cell proliferation. The extracellular substrate s^ is produced by cells and undergoes linear decay. Preliminary numerical simulations show that this mathematical model is able to recapitulate key features of...
[Received on xx; revised on yy] Invasion is an important facet of malignant growth that enables tumo...
This work examines a 1D individual-based model (IBM) for a system of tightly adherent cells, such as...
We consider a continuum mechanical model for the migration of multiple cell populations through part...
We derive a multiphase, moving boundary model to represent the development of tissue in vitro in a p...
The growth of several biological tissues is known to be controlled in part by local geometrical feat...
We construct a model for cell proliferation with differentiation into different cell types, allowing...
Biological tissue is distinguished from materials described historically by continuum mechanical the...
Cancer is a complex disease involving processes at spatial scales from sub-cellular, like cell signa...
We consider a diffuse interface model for tumor growth recently proposed in Chen et al (2014 Int. J....
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
The early development of solid tumours has been extensively studied, both experimentally via the mul...
A large variety of complex spatio-temporal patterns emerge from the processes occurring in biologica...
AbstractWe propose a mathematical model that governs endothelial cell pattern formation on a biogel ...
The application of mathematics to fields such as biology, medicine, and biotechnology has resulted i...
A contemporary procedure to grow artificial tissue is to seed cells onto a porous biomaterial scaffo...
[Received on xx; revised on yy] Invasion is an important facet of malignant growth that enables tumo...
This work examines a 1D individual-based model (IBM) for a system of tightly adherent cells, such as...
We consider a continuum mechanical model for the migration of multiple cell populations through part...
We derive a multiphase, moving boundary model to represent the development of tissue in vitro in a p...
The growth of several biological tissues is known to be controlled in part by local geometrical feat...
We construct a model for cell proliferation with differentiation into different cell types, allowing...
Biological tissue is distinguished from materials described historically by continuum mechanical the...
Cancer is a complex disease involving processes at spatial scales from sub-cellular, like cell signa...
We consider a diffuse interface model for tumor growth recently proposed in Chen et al (2014 Int. J....
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
The early development of solid tumours has been extensively studied, both experimentally via the mul...
A large variety of complex spatio-temporal patterns emerge from the processes occurring in biologica...
AbstractWe propose a mathematical model that governs endothelial cell pattern formation on a biogel ...
The application of mathematics to fields such as biology, medicine, and biotechnology has resulted i...
A contemporary procedure to grow artificial tissue is to seed cells onto a porous biomaterial scaffo...
[Received on xx; revised on yy] Invasion is an important facet of malignant growth that enables tumo...
This work examines a 1D individual-based model (IBM) for a system of tightly adherent cells, such as...
We consider a continuum mechanical model for the migration of multiple cell populations through part...