We present a multiphase mathematical model for tumor growth which incorporates the remodeling of the extracellular matrix and describes the formation of fibrotic tissue by tumor cells. We also detail a full qualitative analysis of the spatially homogeneous problem, and study the equilibria of the system in order to characterize the conditions under which fibrosis may occur
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
We present a multiphase mathematical model for tumor growth which incorporates the remodeling of the...
In this paper a macroscopic model of tumor cord growth is developed, relying on the mathematical the...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
Mathematical investigation of tumor growth is becoming increasingly popular in scientific literature...
Several mathematical formulations have analyzed the time-dependent behaviour of a tumor mass. Howeve...
A multiphase model of tumor and tissue growth including cell adhesion and plastic reorganizatio
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
Normal and tumour cells live in a fibrous environment that is often very heterogeneous, even charact...
International audienceIn this paper, we present a mathematical model for avascular tumor growth and ...
Normal and tumour cells live in a fibrous environment that is often very heterogeneous, even charact...
A model of tumor growth in a spatial environment is analyzed. The model includes proliferating and q...
AbstractThe desire to understand tumor complexity has given rise to mathematical models to describe ...
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
We present a multiphase mathematical model for tumor growth which incorporates the remodeling of the...
In this paper a macroscopic model of tumor cord growth is developed, relying on the mathematical the...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
Mathematical investigation of tumor growth is becoming increasingly popular in scientific literature...
Several mathematical formulations have analyzed the time-dependent behaviour of a tumor mass. Howeve...
A multiphase model of tumor and tissue growth including cell adhesion and plastic reorganizatio
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
Normal and tumour cells live in a fibrous environment that is often very heterogeneous, even charact...
International audienceIn this paper, we present a mathematical model for avascular tumor growth and ...
Normal and tumour cells live in a fibrous environment that is often very heterogeneous, even charact...
A model of tumor growth in a spatial environment is analyzed. The model includes proliferating and q...
AbstractThe desire to understand tumor complexity has given rise to mathematical models to describe ...
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
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