We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells exposed to the action of a cytotoxic drug. The model consists of a nonlocal parabolic equation governing the evolution of the cell population density function. We develop a novel method for constructing exact solutions to the model equation, which allows for a systematic investigation of the way in which the size and the phenotypic composition of the cell population change in response to variations of the drug dose and other evolutionary parameters. Moreover, we address numerical optimal control for a calibrated version of the model based on biological data from the existing literature, in order to identify the drug delivery schedule that makes...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
The main two pitfalls of therapeutics in clinical oncology, that limit increasing drug doses, are un...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
BDH acknowledges support from the Australian Research Council (DP140100339). LA and TL gratefully ac...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
The main two pitfalls of therapeutics in clinical oncology, that limit increasing drug doses, are un...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
We consider a phenotype-structured model of evolutionary dynamics in a population of cancer cells ex...
BDH acknowledges support from the Australian Research Council (DP140100339). LA and TL gratefully ac...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
International audienceWe consider a phenotype-structured model of evolutionary dynamics in a populat...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
We present a stochastic individual-based model for the phenotypic evolution of cancer cell populatio...
The main two pitfalls of therapeutics in clinical oncology, that limit increasing drug doses, are un...
International audienceAbstractBackgroundA thorough understanding of the ecological and evolutionary ...