2021
DOI: 10.1002/cnm.3542
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A scalable solver for a stochastic, hybrid cellular automaton model of personalized breast cancer therapy

Abstract: Mathematical modeling and simulation is a promising approach to personalized cancer medicine. Yet, the complexity, heterogeneity and multi-scale nature of cancer pose significant computational challenges. Coupling discrete cell-based models with continuous models using hybrid cellular automata (CA) is a powerful approach for mimicking biological complexity and describing the dynamical exchange of information across different scales. However, when clinically relevant cancer portions are taken into account, such… Show more

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Cited by 4 publications
(2 citation statements)
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“…Personalised cancer treatment is an application area where simulator‐based inference has a lot of potential, given the constantly improving biological generative models for the evolution of the disease under treatment (Sottoriva & Tavaré, 2010; Kozłowska et al , 2018; Lai et al , 2019; Lai et al , 2021). Realistic biological generative tumor models that are built up from the molecular and cellular processes result typically in a level of complexity that renders analytical solutions infeasible.…”
Section: Abc In Personalised Cancer Treatment With Application To Bre...mentioning
confidence: 99%
“…Personalised cancer treatment is an application area where simulator‐based inference has a lot of potential, given the constantly improving biological generative models for the evolution of the disease under treatment (Sottoriva & Tavaré, 2010; Kozłowska et al , 2018; Lai et al , 2019; Lai et al , 2021). Realistic biological generative tumor models that are built up from the molecular and cellular processes result typically in a level of complexity that renders analytical solutions infeasible.…”
Section: Abc In Personalised Cancer Treatment With Application To Bre...mentioning
confidence: 99%
“…For instance, a finite-state automata model can be used to represent different cell states whereas a continuous dynamics system describes cell behavior according to such state (PHILLIPS et al, 2020). On a different note, those models can also be used to predict the outcome from different medical care strategies or to identify potential targets for cancer treatment -e.g., breast cancer therapy (LAI et al, 2022).…”
Section: Introductionmentioning
confidence: 99%