Volume Filling Effect in Modelling Chemotaxis

Issue		Math. Model. Nat. Phenom. Volume 5, Number 1, 2010 Cell migration


Page(s)		123 - 147
DOI		10.1051/mmnp/20105106
Published online		03 February 2010

Math. Model. Nat. Phenom. Vol. 5, No. 1, 2010, pp. 123-147

Volume Filling Effect in Modelling Chemotaxis

D. Wrzosek^*

Institute of Applied Mathematics and Mechanics, Warsaw University Banacha 2, 02-097 Warszawa, Poland

^* E-mail: darekw@mimuw.edu.pl

Abstract

The oriented movement of biological cells or organisms in response to a chemical gradient is called chemotaxis. The most interesting situation related to self-organization phenomenon takes place when the cells detect and response to a chemical which is secreted by themselves. Since pioneering works of Patlak (1953) and Keller and Segel (1970) many particularized models have been proposed to describe the aggregation phase of this process. Most of efforts were concentrated, so far, on mathematical models in which the formation of aggregate is interpreted as finite time blow-up of cell density. In recently proposed models cells are no more treated as point masses and their finite volume is accounted for. Thus, arbitrary high cell densities are precluded in such description and a threshold value for cells density is a priori assumed. Different modeling approaches based on this assumption lead to a class of quasilinear parabolic systems with strong nonlinearities including degenerate or singular diffusion. We give a survey of analytical results on the existence and uniqueness of global-in-time solutions, their convergence to stationary states and on a possibility of reaching the density threshold by a solution. Unsolved problems are pointed as well.

Mathematics Subject Classification: Primary 35K55 / 35K65 / Secondary 34B15 / 34C25 / 92C17

Key words: chemotaxis equations / quasilinear parabolic equations / Lyapunov functional / degenerate diffusion / no-flux boundary condition / semi-group theory / compactness method / attractor / convergence to steady states / nonlinear elliptic problem

Supported by Polish MEiSW grant 1P03A01730

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