Individual cell-based models of the spatial-temporal organization of multicellular systems - Achievements and limitations
Authored by Dirk Drasdo, J Galle, G Aust, G Schaller, T Beyer
Date Published: 2006
DOI: 10.1002/cyto.a.20287
Sponsors:
Interdisziplinary Center of Clinical Research (IZKF)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Computational approaches of multicellular assemblies have reached a
stage where they may contribute to unveil the processes that underlie
the organization of tissues and multicellular aggregates. In this
article, we briefly review and present some new results on a number of
3D lattice free individual cell-based mathematical models of epithelial
cell populations. The models we consider here are parameterized by
bio-physical and cell-biological quantities on the level of an
individual cell. Eventually, they aim at predicting the dynamics of the
biological processes on the tissue level. We focus on a number of
systems, the growth of cell populations in vitro, and the
spatial-temporal organization of regenerative tissues. For selected
examples we compare different model approaches and show that the
qualitative results are robust with respect to many model details.
Hence, for the qualitative features and largely for the quantitative
features many model details do not matter as long as characteristic
biological features and mechanisms are correctly represented. For a
quantitative prediction, the control of the bio-physical and
cell-biological parameters on the molecular scale has to be known. At
this point, slide-based cytometry may contribute. It permits to track
the fate of cells and other tissue subunits in time and validated the
organization processes predicted by the mathematical models. (c) 2006
international Society for Analytical Cytology.
Tags
proliferation
differentiation
growth
apoptosis
In-vitro
Stem-cells
Dictyostelium-discoideum
Human cytome project
Intestinal crypt
Tumor spheroids