Add to ORKGA model is developed for the motion of cells within a multicell spherical tumour. The model allows either for the intercellular forces to be in compression and cells to be compacted to a fixed number density, or for the cell number density to fall and cells to become isolated from each other. The model develops necrotic regions naturally due to force balances rather than being directly attributable to a critical oxygen concentration. These necrotic regions may result in a gradual reduction in local cell density rather than jump to a completely dead region. Numerical and analytical analysis of the spherically symmetric model shows that the long time behaviour of the spheroid depends on any surface tension effects created by cells on the oute...
The mechanisms underlying the formation of necrotic regions within avascular tumours are not well un...
Abstract.: Multicellular tumour spheroids (MCTSs) are extensively used as in vitro system models for...
A two-phase model is presented to describe avascular tumour growth. Conservation of mass equations, ...
A model is developed for the motion of cells within a multicell spherical tumour. The model allows e...
We consider the dynamic growth of a tumour, concentrating on the possible development of a necrotic ...
We present a mathematical model of the growth of tumours. The cells in the tumour are taken to proli...
We present a mathematical model of the growth of tumours. The cells in the tumour are taken to proli...
AbstractWe present a mathematical model of the growth of tumours. The cells in the tumour are taken ...
It is now widely accepted that cells are mechanically integrated structures which dynamically respon...
In this paper we propose a model for the evolution of a tumour spheroid assuming a structure in whic...
The work presented in this thesis is concerned with modelling the effects of cell movement on the gr...
The early development of solid tumours has been extensively studied, both experimentally via the mul...
A mathematical model is adapted to the description of the growth of an avascular tumour spheroid emb...
A mathematical model is presented for the growth of a multicellular spheroid that comprises a centra...
The work presented in this thesis is concerned with the growth and development of malignancy. Such d...
The mechanisms underlying the formation of necrotic regions within avascular tumours are not well un...
Abstract.: Multicellular tumour spheroids (MCTSs) are extensively used as in vitro system models for...
A two-phase model is presented to describe avascular tumour growth. Conservation of mass equations, ...
A model is developed for the motion of cells within a multicell spherical tumour. The model allows e...
We consider the dynamic growth of a tumour, concentrating on the possible development of a necrotic ...
We present a mathematical model of the growth of tumours. The cells in the tumour are taken to proli...
We present a mathematical model of the growth of tumours. The cells in the tumour are taken to proli...
AbstractWe present a mathematical model of the growth of tumours. The cells in the tumour are taken ...
It is now widely accepted that cells are mechanically integrated structures which dynamically respon...
In this paper we propose a model for the evolution of a tumour spheroid assuming a structure in whic...
The work presented in this thesis is concerned with modelling the effects of cell movement on the gr...
The early development of solid tumours has been extensively studied, both experimentally via the mul...
A mathematical model is adapted to the description of the growth of an avascular tumour spheroid emb...
A mathematical model is presented for the growth of a multicellular spheroid that comprises a centra...
The work presented in this thesis is concerned with the growth and development of malignancy. Such d...
The mechanisms underlying the formation of necrotic regions within avascular tumours are not well un...
Abstract.: Multicellular tumour spheroids (MCTSs) are extensively used as in vitro system models for...
A two-phase model is presented to describe avascular tumour growth. Conservation of mass equations, ...