International audienceA main challenge in radiotherapy is to personalize the treatment by adapting the dose fractionation scheme to the patient. One way is to model the treatment effect on the tumor growth. In this study, we propose a new multinomial model based on a discrete-time Markov chain, able to take into account both of cell repair and cell damage heterogeneity. The proposed model relies on the 'Hit' theory in Radiobiology and assumes that a cancer cell contains m targets which must be all deactivated to produce cell death. The malignant cell population is then split up into m categories to incorporate the variation of cancer cell radio-sensitivity according to their states. This work gives also a new formulation of the tumor contro...
The central goal of this investigation is to describe the dynamic reaction of a multicellular tumour...
Head and neck cancer represents a challenge for radiation oncologists due to accelerated repopulatio...
Background This paper presents a numerical simulation of normal and cancer cells’ population dynamic...
International audienceHit and target models of tumor growth, typically assume that all surviving cel...
International audienceClassical models used in radiotherapy typically assume that after treatment al...
International audienceThis paper deals with the lifespan modeling of heterogenous tumors treated by ...
Nous avons proposé dans cette thèse une nouvelle approche de modélisation des réponses cellulaire et...
In this thesis, we have proposed a Markov chain modeling of the cell and tumor behaviors during radi...
International audienceA new continuous-time statistical model for modelling the effect of radiothera...
The role of mathematics in cancer research has steadily increased over time. Multidisciplinary coll...
In order to overcome the limitations of the linear-quadratic model and include synergistic effects o...
A mechanistic mathematical model for radiotherapy is developed to study the effect of tumor repopula...
In this contribution, we propose a system-level compartmental population dynamics model of tumour ce...
PurposeOptimal treatment planning for fractionated external beam radiation therapy requires inputs f...
Radiotherapy uses high doses of energy to eradicate cancer cells and thus destroy the bulk of tumors...
The central goal of this investigation is to describe the dynamic reaction of a multicellular tumour...
Head and neck cancer represents a challenge for radiation oncologists due to accelerated repopulatio...
Background This paper presents a numerical simulation of normal and cancer cells’ population dynamic...
International audienceHit and target models of tumor growth, typically assume that all surviving cel...
International audienceClassical models used in radiotherapy typically assume that after treatment al...
International audienceThis paper deals with the lifespan modeling of heterogenous tumors treated by ...
Nous avons proposé dans cette thèse une nouvelle approche de modélisation des réponses cellulaire et...
In this thesis, we have proposed a Markov chain modeling of the cell and tumor behaviors during radi...
International audienceA new continuous-time statistical model for modelling the effect of radiothera...
The role of mathematics in cancer research has steadily increased over time. Multidisciplinary coll...
In order to overcome the limitations of the linear-quadratic model and include synergistic effects o...
A mechanistic mathematical model for radiotherapy is developed to study the effect of tumor repopula...
In this contribution, we propose a system-level compartmental population dynamics model of tumour ce...
PurposeOptimal treatment planning for fractionated external beam radiation therapy requires inputs f...
Radiotherapy uses high doses of energy to eradicate cancer cells and thus destroy the bulk of tumors...
The central goal of this investigation is to describe the dynamic reaction of a multicellular tumour...
Head and neck cancer represents a challenge for radiation oncologists due to accelerated repopulatio...
Background This paper presents a numerical simulation of normal and cancer cells’ population dynamic...