ABSTRACT We present a three-dimensional individual cell-based, biophysical model to study the effect of normal and malfunctioning growth regulation and control on the spatial-temporal organization of growing cell populations in vitro. The model includes explicit representations of typical epithelial cell growth regulation and control mechanisms, namely 1), a cell-cell contact-mediated form of growth inhibition; 2), a cell-substrate contact-dependent cell-cycle arrest; and 3), a cell-substrate contact-dependent programmed cell death (anoikis). The model cells are characterized by experimentally accessible biomechanical and cell-biological parameters. First, we study by variation of these cell-specific parameters which of them affect the macr...
The regulation of cell growth in animal tissues is a question of critical importance: most tissues c...
The mechanisms controlling the homeostasis in a normal stratified epithelium are still not clear in ...
Model simulations indicate that the response of growing cell populations on mechanical stress follow...
AbstractWe present a three-dimensional individual cell-based, biophysical model to study the effect ...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
Control of cell proliferation is a fundamental aspect of tissue physiology central to morphogenesis,...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
In biotechnology and biomedicine reliable models of cell proliferation kinetics need to capture the ...
How do individual epithelial cells (ECs) organize into multicellular structures? ECs are studied in ...
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
Collections of epithelial cells form macroscopic materials which show collective behavior including ...
Invitation to a keynote lecture (by Taiji Adachi and Dimitrije Stamenovic) for the session "Computat...
AbstractWe present a mechanistic hybrid continuum-discrete model to simulate the dynamics of epithel...
<p>In this simulation a cross-sectional perspective of cell culture can be seen. Therefore, the ECM ...
Abstract Background Cell proliferation is a key characteristic of eukaryotic cells. During cell prol...
The regulation of cell growth in animal tissues is a question of critical importance: most tissues c...
The mechanisms controlling the homeostasis in a normal stratified epithelium are still not clear in ...
Model simulations indicate that the response of growing cell populations on mechanical stress follow...
AbstractWe present a three-dimensional individual cell-based, biophysical model to study the effect ...
Understanding the dynamics of cell population allows insight into the control mechanism of the growt...
Control of cell proliferation is a fundamental aspect of tissue physiology central to morphogenesis,...
The study of how cell populations grow and spread is integral to understanding and predicting the i...
In biotechnology and biomedicine reliable models of cell proliferation kinetics need to capture the ...
How do individual epithelial cells (ECs) organize into multicellular structures? ECs are studied in ...
AbstractThe development and testing of a discrete model describing the dynamic process of tissue gro...
Collections of epithelial cells form macroscopic materials which show collective behavior including ...
Invitation to a keynote lecture (by Taiji Adachi and Dimitrije Stamenovic) for the session "Computat...
AbstractWe present a mechanistic hybrid continuum-discrete model to simulate the dynamics of epithel...
<p>In this simulation a cross-sectional perspective of cell culture can be seen. Therefore, the ECM ...
Abstract Background Cell proliferation is a key characteristic of eukaryotic cells. During cell prol...
The regulation of cell growth in animal tissues is a question of critical importance: most tissues c...
The mechanisms controlling the homeostasis in a normal stratified epithelium are still not clear in ...
Model simulations indicate that the response of growing cell populations on mechanical stress follow...