The Hele–Shaw Asymptotics for Mechanical Models of Tumor Growth

Perthame, Benoı̂t; Quirós, Fernando; Vázquez, Juan Luís

doi:10.1007/s00205-013-0704-y

Cited by 146 publications

(333 citation statements)

References 37 publications

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“…In the spirit of the work of Perthame, Quiros, Vazquez [25], it would be interesting to investigate a possible Hele-Shaw asymptotic as ε → 0,…”

Section: Phase Transitions In One-dimensional Granular Flowsmentioning

confidence: 99%

Modelling of phase transitions in granular flows

Perrin

2017

ESAIM: ProcS

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Abstract. We present in this work a system for unidimensional granular flows first mentioned in a paper of A. Lefebvre-Lepot and B. Maury (2011), which captures the transitions between compressible and incompressible phases. This model exhibits in the incompressible regions some memory effects through an additional variable called adhesion potential. We derive this system from compressible Navier-Stokes equations with singular viscosities and pressure, the singular limit between the two systems can then be seen as an analogue of the low Mach number limit for fluid with pressure dependent viscosity. It answers in a sense to the problem of transition between suspension flows and immersed granular flows identified by B. Andreotti, Y. Forterre and O. Pouliquen (2011). We illustrate the singular limit by numerical simulations.

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“…In the spirit of the work of Perthame, Quiros, Vazquez [25], it would be interesting to investigate a possible Hele-Shaw asymptotic as ε → 0,…”

Section: Phase Transitions In One-dimensional Granular Flowsmentioning

confidence: 99%

Modelling of phase transitions in granular flows

Perrin

2017

ESAIM: ProcS

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“…This is a consequence of boundedness for initial data, which plays a role in controlling nonlinearity well. There are some related results by Horstmann and Perthame . On the other hand, Theorems and assert the local and global solvability in L 2 (Ω) without boundedness of b 0 .…”

Section: Introduction and Main Resultsmentioning

confidence: 87%

Local and global existence of solutions to a quasilinear degenerate chemotaxis system with unbounded initial data

Yokota

Yoshino

2015

Math Methods in App Sciences

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“…One of the main simplifications in the model is related to the description of mechanical stresses in the tumor. In our formulation, we take into account only compressive stress states and we correlate them to cellular density 42,43 . This approach is quite phenomenological, and for a more thorough account of mechanical issues models based on continuum mechanics and mixture theory should be employed -see ref.…”

Section: Discussionmentioning

confidence: 99%

On the impact of chemo-mechanically induced phenotypic transitions in gliomas

Mascheroni

Alfonso

Kalli

et al. 2018

Preprint

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Tumor microenvironment is a critical player in glioma progression and novel therapies for its targeting have been recently proposed. In particular, stress-alleviation strategies act on the tumor by reducing its stiffness, decreasing solid stresses and improving blood perfusion. However, these microenvironmental changes trigger chemo-mechanically induced cellular phenotypic transitions whose impact on therapy outcomes is not completely understood. In this work, we perform experiments to analyze the effects of mechanical compression on migration and proliferation of two glioma cell lines. From these experiments, we derive a mathematical model of glioma progression focusing on cellular phenotypic plasticity. The model reveals a trade-off between tumor infiltration and cellular content as a consequence of stress-alleviation approaches. We discuss how these findings can improve the current understanding of glioma/microenvironment interactions, and suggest strategies to improve therapeutic outcomes. 4/2513/25 14/25

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The Hele–Shaw Asymptotics for Mechanical Models of Tumor Growth

Cited by 146 publications

References 37 publications

Modelling of phase transitions in granular flows

Modelling of phase transitions in granular flows

Local and global existence of solutions to a quasilinear degenerate chemotaxis system with unbounded initial data

On the impact of chemo-mechanically induced phenotypic transitions in gliomas

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