Abstract. In this paper we propose a new model of cell cycle simulator which will be used to analyse checkpoint response in multicellular tumor spheroids. Whereas most of the models are phase orientated, our model integrates environmental parameters and checkpoint responses that are required to control cell cycle progression. We will present in this paper our work under progress and the different experiments to be performed in order to validate our cell cycle simulator
BACKGROUND: There is a relative paucity of research that integrates materials science and bioenginee...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
This thesis may be divided into two related parts. The rst of which considers a population balance a...
Modeling and in silico simulations are of major conceptual and applicative interest in studying the ...
International audienceModeling and in silico simulations are of major conceptual and applicative int...
The work presented in this thesis is concerned with modelling the effects of cell movement on the gr...
The cell cycle is one of the most fundamental biological processes by which a cell replicates its ge...
In this paper, we present a model of cell cycle progression and apply it to cells of the MCF-7 breas...
National audienceCell cycle synchronization at a specific stage is often an essential requirement to...
Not many models of mammalian cell cycle system exist due to its complexity. Some models are too comp...
A mathematical model is proposed to explain the observed internalization of microspheres and 3H-thym...
Three-dimensional (3D) in vitro tumour spheroid experiments are an important tool for studying cance...
AbstractMembrane systems with peripheral proteins are essentially standard membrane systems with the...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
This paper analyses a recent mathematical model of avascular tumour spheroid growth which accounts f...
BACKGROUND: There is a relative paucity of research that integrates materials science and bioenginee...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
This thesis may be divided into two related parts. The rst of which considers a population balance a...
Modeling and in silico simulations are of major conceptual and applicative interest in studying the ...
International audienceModeling and in silico simulations are of major conceptual and applicative int...
The work presented in this thesis is concerned with modelling the effects of cell movement on the gr...
The cell cycle is one of the most fundamental biological processes by which a cell replicates its ge...
In this paper, we present a model of cell cycle progression and apply it to cells of the MCF-7 breas...
National audienceCell cycle synchronization at a specific stage is often an essential requirement to...
Not many models of mammalian cell cycle system exist due to its complexity. Some models are too comp...
A mathematical model is proposed to explain the observed internalization of microspheres and 3H-thym...
Three-dimensional (3D) in vitro tumour spheroid experiments are an important tool for studying cance...
AbstractMembrane systems with peripheral proteins are essentially standard membrane systems with the...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
This paper analyses a recent mathematical model of avascular tumour spheroid growth which accounts f...
BACKGROUND: There is a relative paucity of research that integrates materials science and bioenginee...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
This thesis may be divided into two related parts. The rst of which considers a population balance a...