Geodesic
A diffuse interface model of tumour evolution under a finite elastic confinement
Abramo Agosti1 orcid ; Riccardo Bardin2 ; Pasquale Ciarletta3 ; Maurizio Grasselli3 orcid
1Università degli Studi di Pavia, Pavia, Italy
2University of Twente, Enschede, The Netherlands
3Politecnico di Milano, Milano, Italy
Interfaces and free boundaries, Tome 27 (2025) no. 1, pp. 27-64

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DOI

Diffuse interface models have gained a growing interest in cancer research for their ability to investigate the mechano-biological features during tumour progression and to provide simulation tools for personalised anti-cancer strategies at an affordable computational cost. Here we propose a diffuse interface model for tumour evolution which accounts for an interfacial structure mimicking a finite elastic confinement at the tumour boundary, possibly due either to a localised elastic stress induced by host tissue displacements, or collagen remodelling in the peritumoural area. This model consists of a partial differential equation of the Cahn–Hilliard type, with degenerate mobility, single-well potential, and an elastic non-local term acting as the effect of a membrane confinement in the chemical potential. Using mixture theory, we derive the corresponding governing equations from thermodynamic principles based on realistic physical and biological assumptions. First, we introduce a suitable regularised problem in order to deal with the degeneracy set of the mobility and the singularity of the potential. For this problem we find a weak solution and provide a regularity result. Then, we establish suitable a priori estimates which are uniform with respect to the regularisation parameters. Passing to the limit in the regularised problem, we prove existence results for different classes of weak solutions to the original problem. Finally, we propose a continuous Galerkin Finite-Element discretisation of the problem, where the positivity of the discrete solution is enforced through a variational inequality. Numerical simulations in a two-dimensional domain are also discussed in three test cases for illustrative purposes.
DOI : 10.4171/ifb/520
Classification : 35Q92, 65N30, 92C17
Mots-clés : diffuse interface model, tumour growth, Cahn-Hilliard equation, non-local elasticity, degenerate mobility, single-well potential, continuous Galerkin approximation

Abramo Agosti  1   ; Riccardo Bardin  2   ; Pasquale Ciarletta  3   ; Maurizio Grasselli  3

1 Università degli Studi di Pavia, Pavia, Italy
2 University of Twente, Enschede, The Netherlands
3 Politecnico di Milano, Milano, Italy 
Abramo Agosti; Riccardo Bardin; Pasquale Ciarletta; Maurizio Grasselli. A diffuse interface model of tumour evolution under a finite elastic confinement. Interfaces and free boundaries, Tome 27 (2025) no. 1, pp. 27-64. doi: 10.4171/ifb/520
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