Search results for "35Q92"

showing 3 items of 3 documents

Modeling multiple taxis: Tumor invasion with phenotypic heterogeneity, haptotaxis, and unilateral interspecies repellence

2021

We provide a short review of existing models with multiple taxis performed by (at least) one species and consider a new mathematical model for tumor invasion featuring two mutually exclusive cell phenotypes (migrating and proliferating). The migrating cells perform nonlinear diffusion and two types of taxis in response to non-diffusing cues: away from proliferating cells and up the gradient of surrounding tissue. Transitions between the two cell subpopulations are influenced by subcellular (receptor binding) dynamics, thus conferring the setting a multiscale character. We prove global existence of weak solutions to a simplified model version and perform numerical simulations for the full se…

Tumor invasionTaxisComputational biologyBiologyMutually exclusive events01 natural sciencesHaptotaxisMultiple taxis and review of modelsRC0254Mathematics - Analysis of PDEsSDG 3 - Good Health and Well-beingCell Behavior (q-bio.CB)Numerical simulationsFOS: MathematicsDiscrete Mathematics and CombinatoricsNonlinear diffusionQA Mathematics0101 mathematicsGlobal existenceQARC0254 Neoplasms. Tumors. Oncology (including Cancer)Genetic heterogeneityInterspecies repellenceApplied Mathematics010102 general mathematicsI-PWCell subpopulationsPhenotypeAC010101 applied mathematicsFOS: Biological sciencesQuantitative Biology - Cell Behavior35Q92 (Primary) 92C17 92C50 (Secondary)Analysis of PDEs (math.AP)Discrete & Continuous Dynamical Systems - B
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Identifiability problem for recovering the mortality rate in an age-structured population dynamics model

2014

In this article is studied the identifiability of the age-dependent mortality rate of the Von Foerster–Mc Kendrick model, from the observation of a given age group of the population. In the case where there is no renewal for the population, translated by an additional homogeneous boundary condition to the Von Foerster equation, we give a necessary and sufficient condition on the initial density that ensures the mortality rate identifiability. In the inhomogeneous case, modelled by a non-local boundary condition, we make explicit a sufficient condition for the identifiability property, and give a condition for which the identifiability problem is ill-posed. We illustrate this latter case wit…

age-structured modelAge structurePopulation35Q92 35R30 92D25 93B3001 natural sciencestransport PDE[ MATH.MATH-AP ] Mathematics [math]/Analysis of PDEs [math.AP]Statisticspopulation dynamicsApplied mathematicsQuantitative Biology::Populations and Evolution[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]Boundary value problem0101 mathematicseducationMathematicseducation.field_of_studyParameter identifiabilityApplied MathematicsMortality rate010102 general mathematicsGeneral EngineeringInverse problemComputer Science Applications010101 applied mathematicsnon-local boundary conditionHomogeneousIdentifiability
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Existence and uniqueness of global classical solutions to a two species cancer invasion haptotaxis model

2017

We consider a haptotaxis cancer invasion model that includes two families of cancer cells. Both families, migrate on the extracellular matrix and proliferate. Moreover the model describes an epithelial-to-mesenchymal-like transition between the two families, as well as a degradation and a self-reconstruction process of the extracellular matrix. We prove positivity and conditional global existence and uniqueness of the classical solutions of the problem for large initial data.

Mathematics - Analysis of PDEs35A01 35B65 35Q92 92C17FOS: MathematicsAnalysis of PDEs (math.AP)
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