Phenotypic switching mechanisms determine the structure of cell migration into extracellular matrix under the `go-or-grow' hypothesis
DOI10.1016/J.MBS.2024.109240zbMATH Open1546.92026MaRDI QIDQ6594615
T. Lorenzi, Author name not available (Why is that?), Kevin J. Painter, Philip K. Maini, Ruth E. Baker
Publication date: 28 August 2024
Published in: Mathematical Biosciences (Search for Journal in Brave)
mathematical modellingtravelling wavephenotypic switchingextracellular matrixcollective cell migrationgo-or-grow
Cell movement (chemotaxis, etc.) (92C17) Traveling wave solutions (35C07) Pathology, pathophysiology (92C32)
Cites Work
- Travelling wave analysis of a mathematical model of glioblastoma growth
- A multilayer grow-or-go model for GBM: effects of invasive cells and anti-angiogenesis on growth
- On interfaces between cell populations with different mobilities
- A stochastic model for adhesion-mediated cell random motility and haptotaxis
- Mathematical modelling of cancer cell invasion of tissue: local and non-local models and the effect of adhesion
- Modeling multiple taxis: tumor invasion with phenotypic heterogeneity, haptotaxis, and unilateral interspecies repellence
- Travelling wave analysis of cellular invasion into surrounding tissues
- The impact of phenotypic heterogeneity on chemotactic self-organisation
- Mathematical modeling of glioma invasion: acid- and vasculature mediated go-or-grow dichotomy and the influence of tissue anisotropy
- Mix and match: phenotypic coexistence as a key facilitator of cancer invasion
- Speed switch in glioblastoma growth rate due to enhanced hypoxia-induced migration
- Modelling cell migration strategies in the extracellular matrix
- The wave of advance of advantageous genes.
- A Bayesian sequential learning framework to parameterise continuum models of melanoma invasion into human skin
- Traveling wave speed and profile of a ``go or grow glioblastoma multiforme model
- `Go or grow': the key to the emergence of invasion in tumour progression?
- A model of cell migration within the extracellular matrix based on a phenotypic switching mechanism
- Density-dependent quiescence in glioma invasion: instability in a simple reaction–diffusion model for the migration/proliferation dichotomy
- Traveling Waves of a Go-or-Grow Model of Glioma Growth
- Numerical Solution of Partial Differential Equations
- Invasion fronts and adaptive dynamics in a model for the growth of cell populations with heterogeneous mobility
- MATHEMATICAL MODELLING OF CANCER CELL INVASION OF TISSUE: THE ROLE OF THE UROKINASE PLASMINOGEN ACTIVATION SYSTEM
- Traveling waves in a coarse‐grained model of volume‐filling cell invasion: Simulations and comparisons
Related Items (1)
This page was built for publication: Phenotypic switching mechanisms determine the structure of cell migration into extracellular matrix under the `go-or-grow' hypothesis
Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6594615)
