Add to ORKGNon-local calculus is often overlooked in the mathematics curriculum. In this paper we present an interesting new class of non-local problems that arise from modelling the growth and division of cells, especially cancer cells, as they progress through the cell cycle. The cellular biomass is assumed to be unstructured in size or position, and its evolution governed by a time-dependent system of ordinary differential equations with multiple time delays. The system is linear and taken to be autonomous. As a result, it is possible to reduce its solution to that of a nonlinear matrix eigenvalue problem. This method is illustrated by considering case studies, including the model of the cell cycle developed in Simms K, Bean N, & Koeber A. [10]. Th...
Although recent advances in oncology emphasized the role of microenvironment in tumor growth, the ro...
A time-delayed mathematical model for tumor growth with the effect of periodic therapy is studied. T...
We consider a model describing the dynamics of hematopoietic stem cells with periodic chemotherapy. ...
Nonlocal calculus is often overlooked in the mathematics curriculum. In this paper we present an int...
In order to model the evolution of a heterogeneous population of cancer stem cells and tumor cells, ...
We present a competition model of tumor growth that includes the immune system response and a cycle-...
International audienceIn this paper we propose a coupled model forhealthy and cancer cell dynamics i...
International audienceIn this paper we propose a coupled model for healthy and cancer cell dynamics ...
Abstract. We investigate the dynamics of a nonlinear model for tumor growth within a cellular medium...
Recent discovery of cancer stem cells in tumorigenic tissues has raised many questions about their n...
The goal of the paper is to compute efficiently solutions for model equations that have the potentia...
We prove the global existence, along with some basic boundedness properties, of weak solutions to a ...
We investigate a system of delay partial differential equations that models the growth of human tumo...
Mathematical models, that depict the dynamics of a cancer cell population growing out of the human b...
In this paper we consider a mathematical model of cancer cell invasion of tissue (extra-cellular mat...
Although recent advances in oncology emphasized the role of microenvironment in tumor growth, the ro...
A time-delayed mathematical model for tumor growth with the effect of periodic therapy is studied. T...
We consider a model describing the dynamics of hematopoietic stem cells with periodic chemotherapy. ...
Nonlocal calculus is often overlooked in the mathematics curriculum. In this paper we present an int...
In order to model the evolution of a heterogeneous population of cancer stem cells and tumor cells, ...
We present a competition model of tumor growth that includes the immune system response and a cycle-...
International audienceIn this paper we propose a coupled model forhealthy and cancer cell dynamics i...
International audienceIn this paper we propose a coupled model for healthy and cancer cell dynamics ...
Abstract. We investigate the dynamics of a nonlinear model for tumor growth within a cellular medium...
Recent discovery of cancer stem cells in tumorigenic tissues has raised many questions about their n...
The goal of the paper is to compute efficiently solutions for model equations that have the potentia...
We prove the global existence, along with some basic boundedness properties, of weak solutions to a ...
We investigate a system of delay partial differential equations that models the growth of human tumo...
Mathematical models, that depict the dynamics of a cancer cell population growing out of the human b...
In this paper we consider a mathematical model of cancer cell invasion of tissue (extra-cellular mat...
Although recent advances in oncology emphasized the role of microenvironment in tumor growth, the ro...
A time-delayed mathematical model for tumor growth with the effect of periodic therapy is studied. T...
We consider a model describing the dynamics of hematopoietic stem cells with periodic chemotherapy. ...