4.5 Article

Homogenization and solvability in achemotaxis-convection angiogenesis model with leakage boundary conditions

Journal

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jmaa.2021.125027

Keywords

Global existence; Chemotaxis; Leaking boundary conditions; Homogenization

Funding

  1. China Scholarship Council [202006630070]
  2. National Natural Science Foundation of China [11861131003]

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In this study, an inhomogeneous Neumann boundary value problem for a chemotaxis-convection system modeling tumor-related angiogenesis in the early phase is considered. It is shown that for any given suitably regular initial data, the corresponding inhomogeneous initial-boundary value problem possesses a unique classical solution that is global-in-time and uniformly bounded through homogenization and a priori estimates.
In a finite one-dimensional interval, this work considers an inhomogeneous Neumann boundary value problem for a chemotaxis-convection system modeling the early phase of tumor-related angiogenesis. In this phase, the endothelial cells produce matrix and adhesive chemicals, both of which could decay or be degraded. In addition to primary random motion of all the above-mentioned three components, the endothelial cells move up toward the concentration gradients of adhesive chemicals, and moreover the former and the latter undergo convection with the spreading of matrix. Since the endothelial cells remain completely within the domain, zero-flux boundary conditions are imposed for them. However, to some extent, there is leaking at the boundaries as matrix and adhesive chemicals spread out beyond the domain. For any given suitably regular initial data, it is shown that the corresponding inhomogeneous initial-boundary value problem possesses a unique classical solution that is global-in-time and uniformly bounded via homogenization and a priori estimates. (C) 2021 Elsevier Inc. All rights reserved.

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