Add to ORKGIn this chapter we briefly discuss the results of a mathematical model formulated in [22] that incorporates many processes associated with tumour growth. The deterministic model, a system of coupled non-linear partial differential equations, is a combination of two previous models that describe the tumour-host interactions in the initial stages of growth [11] and the tumour angiogenic process [6]. Combining these models enables us to investigate combination therapies that target different aspects of tumour growth. Numerical simulations show that the model captures both the avascular and vascular growth phases. Furthermore, we recover a number of characteristic features of vascular tumour growth such as the rate of growth of the tumour a...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this chapter we briefly discuss the results of a mathematical model formulated in [22] that incor...
In this chapter we briefly discuss the results of a mathematical model formulated in [22] that incor...
Summary. In this paper we brie y discuss the results of a mathematical model for-mulated in [22] tha...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this chapter we briefly discuss the results of a mathematical model formulated in [22] that incor...
In this chapter we briefly discuss the results of a mathematical model formulated in [22] that incor...
Summary. In this paper we brie y discuss the results of a mathematical model for-mulated in [22] tha...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper we present a new model framework for studying vascular tumour growth, in which the blo...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this paper, we develop a simple mathematical model of the vascularization and subsequent growth o...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...
In this article, we present a new multiscale mathematical model for solid tumour growth which couple...