Add to ORKGAn existing model of tumor growth that accounts for cell cycle arrest and cell death induced by chemotherapy is extended to simulate the response to treatment of a tumor growing in vivo. The tumor is assumed to undergo logistic growth in the absence of therapy, and treatment is administered periodically rather than continuously. Necessary and sufficient conditions for the global stability of the cancer-free equilibrium are derived and conditions under which the system evolves to periodic solutions are determined. © 2012 Elsevier Ltd. All rights reserved
We present a competition model of tumor growth that includes the immune system response and a cycle-...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...
An existing model of tumor growth that accounts for cell cycle arrest and cell death induced by chem...
In this paper, the presentation will be on existing model called integro-differential equation of tu...
AbstractAn existing model of tumor growth that accounts for cell cycle arrest and cell death induced...
AbstractA logistic differential equation with a time-varying periodic parameter is used to model the...
Abstract: In the last few decades, the dynamics of tumor cells and their growths are presented via c...
A logistic differential equation with a time-varying periodic parameter is used to model the growth ...
A simple mathematical model, developed to simulate the chemotherapy response to tumour growth with s...
This is a mathematical study about tumor growth from a different perspective, with the aim of predic...
A time-delayed mathematical model for tumor growth with the effect of periodic therapy is studied. T...
Cancer is the disease caused by disordered hormone so that it causes the lumps to grow abnormally o...
A mathematical model is used to discuss the effects of cycle-specific chemotherapy. The model includ...
A qualitative model of cell growth, based on qualitative process theory, is presented. The model can...
We present a competition model of tumor growth that includes the immune system response and a cycle-...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...
An existing model of tumor growth that accounts for cell cycle arrest and cell death induced by chem...
In this paper, the presentation will be on existing model called integro-differential equation of tu...
AbstractAn existing model of tumor growth that accounts for cell cycle arrest and cell death induced...
AbstractA logistic differential equation with a time-varying periodic parameter is used to model the...
Abstract: In the last few decades, the dynamics of tumor cells and their growths are presented via c...
A logistic differential equation with a time-varying periodic parameter is used to model the growth ...
A simple mathematical model, developed to simulate the chemotherapy response to tumour growth with s...
This is a mathematical study about tumor growth from a different perspective, with the aim of predic...
A time-delayed mathematical model for tumor growth with the effect of periodic therapy is studied. T...
Cancer is the disease caused by disordered hormone so that it causes the lumps to grow abnormally o...
A mathematical model is used to discuss the effects of cycle-specific chemotherapy. The model includ...
A qualitative model of cell growth, based on qualitative process theory, is presented. The model can...
We present a competition model of tumor growth that includes the immune system response and a cycle-...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...
We develop and analyze a mathematical model, in the form of a system of ordinary differential equati...