Seminar

Mathematics for personalized neuro-oncology

Mathematical Biology

24 October 14:00 - 14:45

Pasquale Ciarletta - Polytechnic University of Milan

Glioblastoma multiforme (GBM) is a multifactorial disease, representing the most common type of primary malignant brain tumors and the most difficult to treat, despite new technologies.

In this talk, I will present an original systems medicine approach based on the integration of clinical, ex-vivo and clinical observations about the GBM mechano-biology characteristics at different scales with mathematical models and methods.

The model consists in an evolutionary fourth-order partial differential equation with degenerate motility, in which the spreading dynamics of the GBM is coupled through a growth term with a parabolic equation determining the diffusing oxygen within the brain.

Firstly, we study the spontaneous budding dynamics observed during in-vitro experiments on a monolayer made of the GBM cell line U87, performed at the FIRC Institute of Molecular Oncology (IFOM). We highlight that this topological transition towards an invasive phenotype is a self-organised, non-equilibrium phenomenon driven by the trade-off of mechanical and physical interactions exerted at cell-cell and cell-matrix adhesions. The unstable disorder states macroscopically emerge as complex spatiotemporal patterns statistically correlated by a universal law.

Secondly, we develop a computational tool to predict the patient-specific evolution of GBM, and its response to therapy in a clinical study performed at the Istituto Neurologico Besta. We collected MRI and Diffusion Tensor (DTI) imaging data for a cohort of patients at given times of key clinical interest, from the first diagnosis to the surgical removal and the subsequent radiation therapies. The results of FE simulations performed on the real geometry of a patient brain quantitatively show how the tumour expansion depends on the local tissue structure. The simulated results are in quantitative agreement with the observed evolution of GBM during growth, recurrence and response to treatment.

Organizers
Mats Gyllenberg
University of Helsinki
Torbjörn Lundh
Chalmers/University of Gothenburg
Philip Maini
University of Oxford
Roeland Merks
Universiteit Leiden
Mathisca de Gunst
Vrije Universiteit Amsterdam

Program
Contact

Roeland Merks

merksrmh@math.leidenuniv.nl

Other
information

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