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Modelling solid tumour growth using the theory of mixtures. (English) Zbl 1046.92023
Summary: The theory of mixtures is used to develop a two-phase model of an avascular tumour, which comprises a solid, cellular phase and a liquid phase. Mass and momentum balances which are used to derive the governing equations are supplemented by constitutive laws that distinguish the two phases and enable the stresses within the tumour to be calculated. Novel features of the model include the dependence of the cell proliferation rate on the cellular stress and the incorporation of mass exchange between the two phases.
A combination of numerical and analytical techniques is used to investigate the sensitivity of equilibrium tumour configurations to changes in the model parameters. Variation of parameters such as the maximum cell proliferation rate and the rate of natural cell death yield results which are consistent with analyses performed on simpler tumour growth models and indicate that the two-phase formulation is a natural extension of the earlier models. New predictions relate to the impact of mechanical effects on the tumour’s equilibrium size which decreases under increasing stress and/or external loading. In particular, as a parameter which measures the reduction in cell proliferation due to cell stress is increased a critical value is reached, above which the tumour is eliminated.

MSC:
92C50 Medical applications (general)
92C05 Biophysics
74F10 Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.)
35R35 Free boundary problems for PDEs
74L15 Biomechanical solid mechanics
76Z05 Physiological flows
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