We have developed a computer program which simulates the growth and development of multicellular tumor spheroids. The program implements a basic description of the metabolism, growth and proliferation of single cells, a full 3-dimensional geometry, and handles the complex problem of diffusion and transport of nutrients and metabolites into and out of cells, and in their surrounding environment. Here we discuss some of the challenging computational problems that arise in the implementation of this biophysical model
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
The term cancer covers a multitude of bodily diseases, broadly categorised by having cells which do ...
We have developed a computer program which simulates the growth and development of multicellular tum...
Multicellular tumor spheroids are an important in vitro model of the pre-vascular phase of solid tum...
Multicellular tumor spheroids are an important in vitro model of the pre-vascular phase of solid tum...
The speed and the versatility of today's computers open up new opportunities to simulate complex bio...
Tumors are complex bio-systems and cell growth is coupled to the chemical modifications of the extra...
While mosts cells are polarized and give rise to complex structures as they grow, some cells, like t...
A recently proposed mathematical model for the growth of Multicellular Tumor Spheroids [1] is here i...
Computational models represent a highly suitable framework, not only for testing biological hypothes...
Recent years have revealed a large number of complex mechanisms and interactions that drive the deve...
A critical step in the dissemination of ovarian cancer is the formation of multicellular spheroids f...
A mathematical model is proposed to explain the observed internalization of microspheres and 3H-thym...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
The term cancer covers a multitude of bodily diseases, broadly categorised by having cells which do ...
We have developed a computer program which simulates the growth and development of multicellular tum...
Multicellular tumor spheroids are an important in vitro model of the pre-vascular phase of solid tum...
Multicellular tumor spheroids are an important in vitro model of the pre-vascular phase of solid tum...
The speed and the versatility of today's computers open up new opportunities to simulate complex bio...
Tumors are complex bio-systems and cell growth is coupled to the chemical modifications of the extra...
While mosts cells are polarized and give rise to complex structures as they grow, some cells, like t...
A recently proposed mathematical model for the growth of Multicellular Tumor Spheroids [1] is here i...
Computational models represent a highly suitable framework, not only for testing biological hypothes...
Recent years have revealed a large number of complex mechanisms and interactions that drive the deve...
A critical step in the dissemination of ovarian cancer is the formation of multicellular spheroids f...
A mathematical model is proposed to explain the observed internalization of microspheres and 3H-thym...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
A mathematical model is proposed to explain the observed internalization of microspheres and3H-thymi...
ABSTRACT The desire to understand tumor complexity has given rise to mathematical models to describe...
The term cancer covers a multitude of bodily diseases, broadly categorised by having cells which do ...