AbstractThe development and testing of a discrete model describing the dynamic process of tissue growth in three-dimensional scaffolds is presented. The model considers populations of cells that execute persistent random walks on the computational grid, collide, and proliferate until they reach confluence. To isolate the effect of population dynamics on tissue growth, the model assumes that nutrient and growth factor concentrations remain constant in space and time. Simulations start either by distributing the seed cells uniformly and randomly throughout the scaffold, or from an initial condition designed to simulate the migration and cell proliferation phase of wound healing. Simulations with uniform seeding show that cell migration enhanc...
We present a detailed experimental data set describing a tissue growth experiment where a population...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Tissue growth and regeneration are fundamental processes underpinning crucial physiological and path...
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
AbstractTo provide theoretical guidance for the design and in vitro cultivation of bioartificial tis...
Tissue growth in three-dimensional (3D) printed scaffolds enables exploration and control of cell be...
Tissue growth in bioscaffolds is influenced significantly by pore geometry, but how this geometric d...
Improved biological and mechanical functionality of musculoskeletal tissue-engineered constructs is ...
The growth of several biological tissues is known to be controlled in part by local geometrical feat...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
Improved biological and mechanical functionality of musculoskeletal tissue-engineered constructs is ...
Cell migration and proliferation has been modelled in several works of the literature as a process s...
Cellular transplantation is a tissue-engineering technique which involves seeding a scaffold with ce...
ABSTRACT We present a three-dimensional individual cell-based, biophysical model to study the effect...
AbstractWe present a three-dimensional individual cell-based, biophysical model to study the effect ...
We present a detailed experimental data set describing a tissue growth experiment where a population...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Tissue growth and regeneration are fundamental processes underpinning crucial physiological and path...
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
AbstractTo provide theoretical guidance for the design and in vitro cultivation of bioartificial tis...
Tissue growth in three-dimensional (3D) printed scaffolds enables exploration and control of cell be...
Tissue growth in bioscaffolds is influenced significantly by pore geometry, but how this geometric d...
Improved biological and mechanical functionality of musculoskeletal tissue-engineered constructs is ...
The growth of several biological tissues is known to be controlled in part by local geometrical feat...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
Improved biological and mechanical functionality of musculoskeletal tissue-engineered constructs is ...
Cell migration and proliferation has been modelled in several works of the literature as a process s...
Cellular transplantation is a tissue-engineering technique which involves seeding a scaffold with ce...
ABSTRACT We present a three-dimensional individual cell-based, biophysical model to study the effect...
AbstractWe present a three-dimensional individual cell-based, biophysical model to study the effect ...
We present a detailed experimental data set describing a tissue growth experiment where a population...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
Tissue growth and regeneration are fundamental processes underpinning crucial physiological and path...