2017
DOI: 10.1142/s0218202517400188
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On a structured multiscale model for acid-mediated tumor invasion: The effects of adhesion and proliferation

Abstract: We propose a multiscale model for tumor cell migration in a tissue network. The system of equations involves a structured population model for the tumor cell density, which besides time and position depends on a further variable characterizing the cellular state with respect to the amount of receptors bound to soluble and insoluble ligands. Moreover, this equation features pH-taxis and adhesion, along with an integral term describing proliferation conditioned by receptor binding. The interaction of tumor cells… Show more

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Cited by 42 publications
(45 citation statements)
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“…If we substitute this state into (B.1) we recover model (2.22), with the exception of equation (2.22d) which is now a steady-state equation. We note here that while different microscale-macroscale models (Stinner et al, 2014(Stinner et al, , 2015(Stinner et al, , 2016Meral et al, 2015a,b) and mesoscale models (Lorenz & Surulescu, 2014;Engwer et al, 2015;Perthame et al, 2016;Engwer et al, 2017;Hunt & Surulescu, 2017) for tumour-ECM interactions via integrins have been developed over the last two decades, to our knowledge there are not many studies that compare and contrast the outcomes of different ways the integrins are incorporated into these different models.…”
Section: Appendix B a Structured Population Model For Cancer-ecm Intmentioning
confidence: 95%
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“…If we substitute this state into (B.1) we recover model (2.22), with the exception of equation (2.22d) which is now a steady-state equation. We note here that while different microscale-macroscale models (Stinner et al, 2014(Stinner et al, , 2015(Stinner et al, , 2016Meral et al, 2015a,b) and mesoscale models (Lorenz & Surulescu, 2014;Engwer et al, 2015;Perthame et al, 2016;Engwer et al, 2017;Hunt & Surulescu, 2017) for tumour-ECM interactions via integrins have been developed over the last two decades, to our knowledge there are not many studies that compare and contrast the outcomes of different ways the integrins are incorporated into these different models.…”
Section: Appendix B a Structured Population Model For Cancer-ecm Intmentioning
confidence: 95%
“…Moreover, the coupling of PDEs for cell movement with ODEs for the dynamics of cell receptors has been considered not only for cancer cells but also for other types of cells, such as Dictyostelium cells (Höfer et al, 1995a,b). However, the past 10-15 years have seen the development of structured cell population models (described by mesoscale models) where the macroscopic cell dynamics is dependent on a microscopic variable that characterises the cells at molecular level (Erban & Othmer, 2004Xue et al, 2011;Lorenz & Surulescu, 2014;Engwer et al, 2015;Perthame et al, 2016;Engwer et al, 2017;Hunt & Surulescu, 2017). In Appendix B we present a modified mesoscale version of model (2.13)-(2.16) where we assume that the two cancer cell populations are structured by an internal variable that describes the integrin level.…”
Section: Derivation Of the Modelmentioning
confidence: 99%
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“…Several nonlocal mathematical models of adhesion (meaning models in which events or cell concentrations at a point x in the tumor domain depend on events at points distinct from x but within a finite neighborhood of x) have been proposed in the literature. For an example of such cell-to-cell adhesion models, see Armstrong et al [3], Chaplain et al [1,9], Engwer et al [18], and Stinner et al [55], the latter two references addressing the effects of adhesion on tumor-cell invasion.…”
Section: Introductionmentioning
confidence: 99%