Add to ORKGInternational audienceAngiogenesis is a key process in the tumoral growth which allows the cancerous tissue to impact on its vasculature in order to improve the nutrient's supply and the metastatic process. In this paper, we introduce a model for the density of metastasis which takes into account for this feature. It is a two dimensional structured equation with a vanishing velocity field and a source term on the boundary. We present here the mathematical analysis of the model, namely the well-posedness of the equation and the asymptotic behavior of the solutions, whose natural regularity led us to investigate some basic properties of the space $\Wd(\Om)=\{V\in L^1;\;\div(GV)\in L^1\}$, where $G$ is the velocity field of the equation
In this paper we consider a generalized metastatic tumor growth model that describes the primary tum...
In this paper we present several mathematical models of tumor growth and angiogenesis expressed by ...
We present a mathematical model for vascular tumor growth. We use phase fields to model cellular gro...
International audienceWe introduce and analyze a phenomenological model for anti-angiogenic therapy ...
International audienceCancer is one of the greatest killers in the world, particularly in western co...
Abstract. We present a mathematical model describing the time development of a population of tu-mors...
We present a mathematical model describing the time development of a population of tumors ...
32p.International audienceIn cancer diseases, the appearance of metastases is a very pejorative fore...
International audienceWe present a mathematical model describing the time development of a populatio...
International audienceThe dual classification of cancer as localized or metastatic disease is one of...
This work focuses on the description of the growth of the primary tumor of metastatic colorectal can...
We introduce a phenomenological model for anti-angiogenic therapy in the treatment of metastatic can...
The McKendrick/Von Foerster equation is a transport equation with a non-local boundary condition tha...
Angiogenesis is the formation of new blood vessels from existing ones, and is a key characteristic o...
Prompted by recent clinical observations on the phenomenon of metastasis inhibition by an angiogenes...
In this paper we consider a generalized metastatic tumor growth model that describes the primary tum...
In this paper we present several mathematical models of tumor growth and angiogenesis expressed by ...
We present a mathematical model for vascular tumor growth. We use phase fields to model cellular gro...
International audienceWe introduce and analyze a phenomenological model for anti-angiogenic therapy ...
International audienceCancer is one of the greatest killers in the world, particularly in western co...
Abstract. We present a mathematical model describing the time development of a population of tu-mors...
We present a mathematical model describing the time development of a population of tumors ...
32p.International audienceIn cancer diseases, the appearance of metastases is a very pejorative fore...
International audienceWe present a mathematical model describing the time development of a populatio...
International audienceThe dual classification of cancer as localized or metastatic disease is one of...
This work focuses on the description of the growth of the primary tumor of metastatic colorectal can...
We introduce a phenomenological model for anti-angiogenic therapy in the treatment of metastatic can...
The McKendrick/Von Foerster equation is a transport equation with a non-local boundary condition tha...
Angiogenesis is the formation of new blood vessels from existing ones, and is a key characteristic o...
Prompted by recent clinical observations on the phenomenon of metastasis inhibition by an angiogenes...
In this paper we consider a generalized metastatic tumor growth model that describes the primary tum...
In this paper we present several mathematical models of tumor growth and angiogenesis expressed by ...
We present a mathematical model for vascular tumor growth. We use phase fields to model cellular gro...