1. Investigating in vitro angiogenesis by computer-assisted image analysis and computational simulation
- Author
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Diego, Guidolin, Caterina, Fede, Giovanna, Albertin, and Raffaele, De Caro
- Subjects
Endothelial cells ,Image Processing ,Medicine (all) ,Neovascularization, Physiologic ,Biological ,Models, Biological ,Image analysis ,Matrigel assay ,Computer-Assisted ,Models ,Image Processing, Computer-Assisted ,Human Umbilical Vein Endothelial Cells ,Genetics ,Humans ,Mathematical modeling ,Computer Simulation ,Angiogenesis ,Physiologic ,Molecular Biology ,Neovascularization - Abstract
In vitro assays that stimulate the formation of capillary-like structures by EC have become increasingly popular, because they allow the study of the EC's intrinsic ability to self-organize to form vascular-like patterns. Here we describe a widely applied protocol involving the use of basement membrane matrix (Matrigel) as a suitable environment to induce an angiogenic phenotype in cultured EC. EC differentiation on basement membrane matrix is a highly specific process, which recapitulates many steps in blood vessel formation and for this reason it is presently considered as a reliable in vitro tool to identify factors with potential antiangiogenic or pro-angiogenic properties. The morphological features of the obtained cell patterns can also be accurately quantified by computer-assisted image analysis and the main steps of such a procedure will be here outlined and discussed. The dynamics of in vitro EC self-organization is a complex biological process, involving a network of interactions between a high number of cells. For this reason, the combined use of in vitro experiments and computational modeling can represent a key approach to unravel how mechanical and chemical signaling by EC coordinates their organization into capillary-like tubes. Thus, a particularly helpful approach to modeling is also briefly described together with examples of its application.
- Published
- 2015