Abstract
In previous papers a strongly simplified physical-mathematical (biokinetic) model has been presented, which dealt with the factors influencing the timely development of DNA mismatches dependent cells (malignant cells) in their kinetic competition to the development of normal somatic cells (i.e. cells with correct genetic information). The kinetic results have been studied by comparing them with experimental results reported in the literature upon inhibiting the organism’s own enzymatic DNA-proofreading and repair machinery. In spite of the fact that the model uses fully the chances of kinetics, which allows to describe even rather complicated systems with many regulation circuits and feed back loops in a rather simple, summarizing way, it has been demonstrated that the model does not only well describe the experimentally found significant increases of mutants in cases when the DNA repair system has been inhibited, but it can also reflect cancer-development and the efficacy of classical cancer therapies like surgery or chemotherapy as well.
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