Add to ORKGTumour cells usually live in a environment formed by other host cells, extra-cellular ma-trix and extra-cellular liquid. Cells duplicate, reorganise and deform while binding each other thanks to adhesion molecules exerting forces of measurable strength. In this paper it is illus-trated a macroscopic mechanical model of solid tumour which takes such adhesion mechanisms into account. The extracellular matrix is treated as an elastic compressible material, while, in order to define the relationship between stress and strain for the cellular constituents, the deformation gradient is decomposed in a multiplicative way distinguishing the contribution due to growth, to plastic rearrangement and to elastic deformation. On the basis of experi-mental...
In this paper a mathematical model is developed to describe the effect of nonuniform growth on the m...
This paper presents a mathematical model of normal and abnormal tissue growth. The modelling focuses...
Mechanical forces play a crucial role in tumor patho-physiology. Compression of cancer cells inhibit...
Tumour cells usually live in an environment formed by other host cells, extra-cellular matrix and ex...
Tumor cells usually duplicate in a environment formed by other host cells, a deformable extra-cellul...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
It is now widely accepted that cells are mechanically integrated structures which dynamically respon...
The main aim of the paper is to embed the experimental results recently obtained studying the detach...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
In this article, we present a continuous model for tumor growth . This model describes the evolution...
Concentrated cell suspensions exhibit different mechanical behavior depending on the me-chanical str...
Mathematical models can provide a quantitatively sophisticated description of tumor cell (TC) behavi...
In this paper, a mathematical model is presented to describe the evolution of an avascular solid tum...
In this paper a mathematical model is developed to describe the effect of nonuniform growth on the m...
This paper presents a mathematical model of normal and abnormal tissue growth. The modelling focuses...
Mechanical forces play a crucial role in tumor patho-physiology. Compression of cancer cells inhibit...
Tumour cells usually live in an environment formed by other host cells, extra-cellular matrix and ex...
Tumor cells usually duplicate in a environment formed by other host cells, a deformable extra-cellul...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
It is now widely accepted that cells are mechanically integrated structures which dynamically respon...
The main aim of the paper is to embed the experimental results recently obtained studying the detach...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
Mechanical factors play a major role in tumor development and response to treatment. This is more ev...
Resorting to a multiphase modelling framework, tumours are described here as a mixture of tumour and...
In this article, we present a continuous model for tumor growth . This model describes the evolution...
Concentrated cell suspensions exhibit different mechanical behavior depending on the me-chanical str...
Mathematical models can provide a quantitatively sophisticated description of tumor cell (TC) behavi...
In this paper, a mathematical model is presented to describe the evolution of an avascular solid tum...
In this paper a mathematical model is developed to describe the effect of nonuniform growth on the m...
This paper presents a mathematical model of normal and abnormal tissue growth. The modelling focuses...
Mechanical forces play a crucial role in tumor patho-physiology. Compression of cancer cells inhibit...