We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumours under chemotherapy. The model comprises a system of coupled partial integro-differential equations for the phenotypic distribution of tumour cells, the concentration of oxygen and the concentration of a chemotherapeutic agent. In order to disentangle the impact of different evolutionary parameters on the emergence of intra-tumour phenotypic heterogeneity and the development of resistance to chemotherapy, we construct explicit solutions to the equation for the phenotypic distribution of tumour cells and provide a detailed quantitative characterisation of the long-time asymptotic behaviour of such solutions. Analytical results are integrated...
We present a mathematical study of the emergence of phenotypic heterogeneity in vascularized tumors....
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
In the study of cancer evolution and therapeutic strategies, scientific evidence shows that a key dy...
In the study of cancer evolution and therapeutic strategies, scientific evidence shows that a key dy...
We present a mathematical study of the emergence of phenotypic heterogeneity in vascularized tumors....
The disordered network of blood vessels that arises from tumour angiogenesis results in variations i...
We present a mathematical model that describes how tumour heterogeneity evolves in a tissue slice th...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
A multiscale model for vascular tumour growth is presented which includes systems of ordinary differ...
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...
We present a mathematical study of the emergence of phenotypic heterogeneity in vascularized tumors....
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
We consider a mathematical model for the evolutionary dynamics of tumour cells in vascularised tumou...
In the study of cancer evolution and therapeutic strategies, scientific evidence shows that a key dy...
In the study of cancer evolution and therapeutic strategies, scientific evidence shows that a key dy...
We present a mathematical study of the emergence of phenotypic heterogeneity in vascularized tumors....
The disordered network of blood vessels that arises from tumour angiogenesis results in variations i...
We present a mathematical model that describes how tumour heterogeneity evolves in a tissue slice th...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
A multiscale model for vascular tumour growth is presented which includes systems of ordinary differ...
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...
We present a mathematical study of the emergence of phenotypic heterogeneity in vascularized tumors....
In this paper we formulate and explore a mathematical model to study continuous infusion of a vascul...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...