Graf, Isabell Multiscale modeling and homogenization of reaction-diffusion systems involving biological surfaces. (English) Zbl 1300.92006 Augsburger Schriften zur Mathematik, Physik und Informatik 21. Berlin: Logos Verlag; Augsburg: Univ. Augsburg, Institut für Mathematik (Diss.) (ISBN 978-3-8325-3397-7/pbk). vi, 278 p. (2013). Publisher’s description: Many complex chemical processes are responsible for the proper functioning of the human body. A prime example is the finely structured endoplasmic reticulum, which plays an important role in the metabolisms of human cells.To handle mathematical models that account for this fine structure, periodic homogenization methods are derived and applied.Previous results on homogenization of partial differential equations on finely structured manifolds are extended: using the periodic unfolding method, diffusion terms on manifolds with different scalings with powers of the homogenization parameter, in particular in case of fast diffusion, are homogenized and are applied in three different biological systems: a linear model of carcinogenesis of cells, a nonlinear extension of the linear carcinogenesis model and a model considering T-cell signaling.Simulations and interpretations of the homogeneous T-cell signaling model give an insight into the related biological mechanisms. Cited in 2 Documents MSC: 92-02 Research exposition (monographs, survey articles) pertaining to biology 92C45 Kinetics in biochemical problems (pharmacokinetics, enzyme kinetics, etc.) 92E20 Classical flows, reactions, etc. in chemistry Keywords:periodic homogenization; periodic unfolding method; carcinogenesis of cells; T-cell signaling PDFBibTeX XMLCite \textit{I. Graf}, Multiscale modeling and homogenization of reaction-diffusion systems involving biological surfaces. Berlin: Logos Verlag; Augsburg: Univ. Augsburg, Institut für Mathematik (Diss.) (2013; Zbl 1300.92006)