In this chapter we review existing continuum models of avascular tumor growth, explaining howthey are inter related and the biophysical insight that they provide. The models range in complexity and include one-dimensional studies of radiallysymmetric growth, and two-dimensional models of tumor invasion in which the tumor is assumed to comprise a single population of cells. We also present more detailed, multiphase models that allow for tumor heterogeneity. The chapter concludes with a summary of the different continuum approaches and a discussion of the theoretical challenges that lie ahead
In this paper, we present a mathematical model for avascular tumor growth and its numerical study in...
International audienceIn this paper, we present a mathematical model for avascular tumor growth and ...
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
Abstract. This review will outline a number of illustrative mathematical models describing the growt...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
AbstractThe desire to understand tumor complexity has given rise to mathematical models to describe ...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
In this paper, we present a mathematical model for avascular tumor growth and its numerical study in...
International audienceIn this paper, we present a mathematical model for avascular tumor growth and ...
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
In this chapter we review existing continuum models of avascular tumor growth, explaining howthey ar...
Abstract. This review will outline a number of illustrative mathematical models describing the growt...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
This review will outline a number of illustrative mathematical models describing the growth of avasc...
AbstractThe desire to understand tumor complexity has given rise to mathematical models to describe ...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
In this paper, we present a mathematical model for avascular tumor growth and its numerical study in...
International audienceIn this paper, we present a mathematical model for avascular tumor growth and ...
Abstract. In this paper, we present a mathematical model for avascular tumor growth and its numerica...