Cancer is often characterized as a chaotic, poorly regulated growth. Cancer can be viewed as a complex adaptive system. Complex adaptive systems can be described mathematically by nonlinear (chaos) theory including asymmetry, fractal structure and autocorrelation factor (Cramer, 1993). Atypical shape of tumor cells and chaotic structures of blood flow is on
Abstract. A model of tumor growth in a spatial environment is analyzed. The model includes prolifera...
In this paper, a mathematical model describing the one-dimensional growth of a solid tumour (for exa...
We study complex oscillations generated by the de Pillis-Radunskaya model of cancer growth, a model ...
Cancer is a significant medical and societal problem. This reality arises from the fact that an expo...
WOS:000396798400011International audienceDescribing tumor growth is a key issue in oncology for corr...
Cancer growth and decay can be modeled as a system of chaotic nonlinear differential equations. The ...
Model equations: n'=0,f'=αη(m-f), m'=βkn-fc+γf-m, c'=vfm-ωn-δΦc where m,n,f and c are functions of t...
Dynamical systems modeling tumor growth have been investigated to determine the dynamics between tum...
Despite mounting evidence that oncolytic viruses can be effective in treating cancer, understanding ...
Despite mounting evidence that oncolytic viruses can be effective in treating cancer, understanding ...
Cancer begins to be recognized as a highly complex disease, and advanced knowledge of the carcinogen...
The dynamics of cancerous tissue growth involves the complex interaction of a number of phenomena in...
In biological sciences, dynamical system of cancer model is well known due to it...
We consider a dynamical model of cancer growth including three interacting cell populations of tumor...
. Such complicated dynamics are generally the result of a combination of stochastic events and deter...
Abstract. A model of tumor growth in a spatial environment is analyzed. The model includes prolifera...
In this paper, a mathematical model describing the one-dimensional growth of a solid tumour (for exa...
We study complex oscillations generated by the de Pillis-Radunskaya model of cancer growth, a model ...
Cancer is a significant medical and societal problem. This reality arises from the fact that an expo...
WOS:000396798400011International audienceDescribing tumor growth is a key issue in oncology for corr...
Cancer growth and decay can be modeled as a system of chaotic nonlinear differential equations. The ...
Model equations: n'=0,f'=αη(m-f), m'=βkn-fc+γf-m, c'=vfm-ωn-δΦc where m,n,f and c are functions of t...
Dynamical systems modeling tumor growth have been investigated to determine the dynamics between tum...
Despite mounting evidence that oncolytic viruses can be effective in treating cancer, understanding ...
Despite mounting evidence that oncolytic viruses can be effective in treating cancer, understanding ...
Cancer begins to be recognized as a highly complex disease, and advanced knowledge of the carcinogen...
The dynamics of cancerous tissue growth involves the complex interaction of a number of phenomena in...
In biological sciences, dynamical system of cancer model is well known due to it...
We consider a dynamical model of cancer growth including three interacting cell populations of tumor...
. Such complicated dynamics are generally the result of a combination of stochastic events and deter...
Abstract. A model of tumor growth in a spatial environment is analyzed. The model includes prolifera...
In this paper, a mathematical model describing the one-dimensional growth of a solid tumour (for exa...
We study complex oscillations generated by the de Pillis-Radunskaya model of cancer growth, a model ...