In this paper we propose a mathematical model to describe the evolution of glioma cells taking into account the viscoelastic properties of brain tissue. The mathematical model is established considering that the glioma cells are of two phenotypes: migratory and proliferative. The evolution of the migratory cells is described by a diffusion-reaction equation of non Fickian type deduced considering a mass conservation law with a non Fickian migratory mass flux. The evolution of the proliferative cells is described by a reaction equation. A stability analysis that leads to the design of efficient protocols is presented. Numerical simulations that illustrate the behavior of the mathematical model are included
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
We propose a coupled mathematical modelling system to investigate glioblastoma growth in response to...
Summarization: Glioma is the most aggressive type of brain cancer. Several mathematical models have ...
In this paper we propose a mathematical model to describe the evolution of glioma cells in the brain...
In this paper we consider a mathematical model to describe glioma evolution. The model is establishe...
Summarization: Gliomas are the mos tcommon types of brain cancer,well known for their aggressive pro...
Glioma is a common type of primary brain tumor, with a strongly invasive potential, often exhibiting...
Glioblastoma multiforme is a deadly brain cancer in which tumor cells excessively proliferate and mi...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
Summarization: Gliomas, the most aggressive form of brain cancer, are known for their widespread inv...
Gliomas are very aggressive brain tumours, in which tumour cells gain the ability to penetrate the s...
A multiscale mathematical model for glioma cell migration and proliferation is proposed, taking into...
In this paper we analyse a previously proposed cell-based model of glioblastoma (brain tumour) growt...
Mathematical modeling for cancerous disease has attracted increasing attention from the researchers ...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
We propose a coupled mathematical modelling system to investigate glioblastoma growth in response to...
Summarization: Glioma is the most aggressive type of brain cancer. Several mathematical models have ...
In this paper we propose a mathematical model to describe the evolution of glioma cells in the brain...
In this paper we consider a mathematical model to describe glioma evolution. The model is establishe...
Summarization: Gliomas are the mos tcommon types of brain cancer,well known for their aggressive pro...
Glioma is a common type of primary brain tumor, with a strongly invasive potential, often exhibiting...
Glioblastoma multiforme is a deadly brain cancer in which tumor cells excessively proliferate and mi...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
Summarization: Gliomas, the most aggressive form of brain cancer, are known for their widespread inv...
Gliomas are very aggressive brain tumours, in which tumour cells gain the ability to penetrate the s...
A multiscale mathematical model for glioma cell migration and proliferation is proposed, taking into...
In this paper we analyse a previously proposed cell-based model of glioblastoma (brain tumour) growt...
Mathematical modeling for cancerous disease has attracted increasing attention from the researchers ...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
Glioblastoma Multiforme (GBM) is the most invasive form of primary brain tumor. We propose a mathema...
We propose a coupled mathematical modelling system to investigate glioblastoma growth in response to...
Summarization: Glioma is the most aggressive type of brain cancer. Several mathematical models have ...