Low-grade gliomas (LGGs) are primary brain tumours which evolve very slowly in time, but inevitably cause patient death. In this paper, we consider a PDE version of the previously proposed ODE model that describes the changes in the densities of functionally alive LGGs cells and cells that are irreversibly damaged by chemotherapy treatment. Besides the basic mathematical properties of the model, we study the possibility of the existence of travelling wave solutions in the framework of Fenichel’s invariant manifold theory. The estimates of the minimum speeds of the travelling wave solutions are provided. The obtained analytical results are illustrated by numerical simulations
In this paper we present a travelling-wave analysis of a mathematical model describing the growth of...
The formation of a capsule of dense, fibrous extracellular matrix around a solid tumour is a key pro...
In this paper, we carry out a travelling-wave analysis of a model of tumour invasion with degenerate...
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 ...
This thesis explores a model for aggressive brain cancer - glioblastoma multiforme, with modified g...
Mathematical modeling for cancerous disease has attracted increasing attention from the researchers...
The existence of traveling wave solutions to a haptotaxis dominated model is analyzed. A version of ...
Glioblastoma multiforme is a deadly brain cancer in which tumor cells excessively proliferate and mi...
Abstract. The existence of travelling wave solutions to a haptotaxis dominated model is analysed. A ...
In this manuscript, we prove the existence of slow and fast traveling wave solutions in the original...
In this paper we analyze the dynamics of a cancer invasion model that incorporates the cancer stem c...
We present an analysis of a mathematical model describing the key features of the most frequent and ...
Cancer can be found in many forms, including clumps of cancerous cells known as tumors. Malignant tu...
In this manuscript, we prove the existence of slow and fast traveling wave solutions in the original...
In this paper we present a travelling-wave analysis of a mathematical model describing the growth of...
The formation of a capsule of dense, fibrous extracellular matrix around a solid tumour is a key pro...
In this paper, we carry out a travelling-wave analysis of a model of tumour invasion with degenerate...
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 ...
This thesis explores a model for aggressive brain cancer - glioblastoma multiforme, with modified g...
Mathematical modeling for cancerous disease has attracted increasing attention from the researchers...
The existence of traveling wave solutions to a haptotaxis dominated model is analyzed. A version of ...
Glioblastoma multiforme is a deadly brain cancer in which tumor cells excessively proliferate and mi...
Abstract. The existence of travelling wave solutions to a haptotaxis dominated model is analysed. A ...
In this manuscript, we prove the existence of slow and fast traveling wave solutions in the original...
In this paper we analyze the dynamics of a cancer invasion model that incorporates the cancer stem c...
We present an analysis of a mathematical model describing the key features of the most frequent and ...
Cancer can be found in many forms, including clumps of cancerous cells known as tumors. Malignant tu...
In this manuscript, we prove the existence of slow and fast traveling wave solutions in the original...
In this paper we present a travelling-wave analysis of a mathematical model describing the growth of...
The formation of a capsule of dense, fibrous extracellular matrix around a solid tumour is a key pro...
In this paper, we carry out a travelling-wave analysis of a model of tumour invasion with degenerate...