Chemotaxis and chemokinesis in eukaryotic cells: The Keller-Segel equations as an approximation to a detailed model

DOI10.1007/BF02458292zbMath0789.92017OpenAlexW2027091123WikidataQ52385063 ScholiaQ52385063MaRDI QIDQ1319905

Publication date: 13 June 1994

Published in: Bulletin of Mathematical Biology (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1007/bf02458292

zbMATH Keywords

Keller-Segel equation coupled reaction-diffusion equations Boyden chamber cell transport coefficients cell- chemical interactions chemical concentration chemical control of cell movement chemical degradation rate eukaryotic cell movement neutrophil-peptide system under-agarose assays

Mathematics Subject Classification ID

PDEs in connection with biology, chemistry and other natural sciences (35Q92) Kinetics in biochemical problems (pharmacokinetics, enzyme kinetics, etc.) (92C45) Physiology (general) (92C30) Physiological, cellular and medical topics (92C99)

Related Items (25)

A mathematical model of integrin-mediated haptotactic cell migration ⋮ The effect of cell sedimentation on measuring chondrocyte population migration using a Boyden chamber ⋮ Computational approaches to solving equations arising from wound healing ⋮ Cellular pattern formation during Dictyostelium aggregation ⋮ Mathematical modeling and its analysis for instability of the immune system induced by chemotaxis ⋮ A note for global existence of a two-dimensional chemotaxis–haptotaxis model with remodeling of non-diffusible attractant ⋮ Mathematical model of macrophage-facilitated breast cancer cells invasion ⋮ Mathematical modelling of the use of macrophages as vehicles for drug delivery to hypoxic tumour sites ⋮ Space-time adaptivity for a multi-scale cancer invasion model ⋮ Complex dynamics of tumors: modeling an emerging brain tumor system with coupled reaction-diffusion equations ⋮ Chemotaxis-induced spatio-temporal heterogeneity in multi-species host-parasitoid systems ⋮ BOUNDEDNESS OF SOLUTIONS OF A HAPTOTAXIS MODEL ⋮ A biophysical model of tumor invasion ⋮ Macroscopic models for fibroproliferative disorders: a review ⋮ Angiogenesis in bone fracture healing: a bioregulatory model ⋮ A user's guide to PDE models for chemotaxis ⋮ A hybrid agent-based approach for modeling microbiological systems ⋮ MATHEMATICAL MODELLING OF CANCER INVASION OF TISSUE: THE ROLE AND EFFECT OF NONLOCAL INTERACTIONS ⋮ On the existence of weak solutions of nonlinear degenerate parabolic system with variable exponents ⋮ Decay for a Keller–Segel Chemotaxis Model ⋮ Mathematical models for chemotaxis and their applications in self-organisation phenomena ⋮ Travelling waves in a model of species migration ⋮ Neural network approach to data-driven estimation of chemotactic sensitivity in the Keller-Segel model ⋮ Mathematical modelling of the influence of heat shock proteins on cancer invasion of tissue ⋮ Numerical interactions of random and directed motility during cancer invasion.

Cites Work

This page was built for publication: Chemotaxis and chemokinesis in eukaryotic cells: The Keller-Segel equations as an approximation to a detailed model