Add to ORKGA multiscale model for vascular tumour growth is presented which includes systems of ordinary differential equations for the cell cycle and regulation of apoptosis in individual cells, coupled to partial differential equations for the spatio-temporal dynamics of nutrient and key signalling chemicals. Furthermore, these subcellular and tissue layers are incorporated into a cellular automaton framework for cancerous and normal tissue with an embedded vascular network. The model is the extension of previous work and includes novel features such as cell movement and contact inhibition. We presented a detailed simulation study of the effects of these additions on the invasive behaviour of tumour cells and the tumour's response to chemotherapy...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...
We present a mathematical model for the complex system for the growth of a solid tumor. The system e...
Multiscale approaches to modelling biological phenomena are growing rapidly. We present here some re...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
The modelling of cancer provides an enormous mathematical challenge because of its inherent multi-sc...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
The modelling of cancer provides an enormous mathematical challenge because of its inherent multisca...
Most of the existing mathematical models for tumour growth and tumour-induced angiogenesis neglect b...
Most of the existing mathematical models for tumour growth and tumour-induced angiogenesis neglect b...
The dynamics of tumor growth and associated events cover multiple time and spatial scales, generally...
Despite major scientific, medical and technological advances over the last few decades, a cure for c...
Despite major scientific, medical and technological advances over the last few decades, a cure for c...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...
We present a mathematical model for the complex system for the growth of a solid tumor. The system e...
Multiscale approaches to modelling biological phenomena are growing rapidly. We present here some re...
Abstract. A multiscale model for vascular tumour growth is presented which includes systems of ordin...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
The modelling of cancer provides an enormous mathematical challenge because of its inherent multi-sc...
An existing multiscale model is extended to study the response of a vascularised tumour to treatment...
The modelling of cancer provides an enormous mathematical challenge because of its inherent multisca...
Most of the existing mathematical models for tumour growth and tumour-induced angiogenesis neglect b...
Most of the existing mathematical models for tumour growth and tumour-induced angiogenesis neglect b...
The dynamics of tumor growth and associated events cover multiple time and spatial scales, generally...
Despite major scientific, medical and technological advances over the last few decades, a cure for c...
Despite major scientific, medical and technological advances over the last few decades, a cure for c...
The therapeutic control of a solid tumour depends critically on the responses of the individual cell...
We present a mathematical model for the complex system for the growth of a solid tumor. The system e...
Multiscale approaches to modelling biological phenomena are growing rapidly. We present here some re...