A Novel Derivation of Rigorous Macroscopic Limits from a Micro-Meso Description of Signal-Triggered Cell Migration in Fibrous Environments
Anna Zhigun, Christina Surulescu
Abstract
In this work we upscale a prototypical kinetic transport equation which models a cell population moving in a fibrous environment with a chemo- or haptotactic signal influencing both the direction and the magnitude of the cell velocity. The presented approach to scaling does not rely on orthogonality and treats parabolic and hyperbolic scalings in a unified manner. It is shown that the steps of the formal limit procedures are mirrored by rigorous operations with finite measures provided that the measure-valued position-direction fiber distribution enjoys some spacial continuity.
Topics & Concepts
SIGNAL (programming language)Cell migrationComputer sciencePhysicsBiological systemMathematicsCellBiologyGeneticsProgramming languageMathematical Biology Tumor GrowthCellular Mechanics and InteractionsGene Regulatory Network Analysis