Multistage evolutionary model for carcinogenesis mutations

Multistage evolutionary model for carcinogenesis mutations

We developed a mathematical model for carcinogenesis mutations based on the reaction diffusion, logistic behavior, and interactions between normal, benign, and premalignant mutant cells. We adopted a deterministic view of the multistage evolution of the mutant cell to a tumor with a fast growth rate...

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Bibliographic Details
Main Authors: Xiao-Biao Lin, Reza Ahangar
Format: Article
Language:English
Published: Texas State University 2003-02-01
Series:Electronic Journal of Differential Equations
Subjects:
Cancer
mutation
interaction
travelling waves
singular perturbation.
Online Access:http://ejde.math.txstate.edu/conf-proc/10/a4/abstr.html
Description
Summary:We developed a mathematical model for carcinogenesis mutations based on the reaction diffusion, logistic behavior, and interactions between normal, benign, and premalignant mutant cells. We adopted a deterministic view of the multistage evolution of the mutant cell to a tumor with a fast growth rate, and its progress to a malignant stage. In a simple case of this model, the interaction between normal and tumor cells with one or two stages of mutations was analyzed. The stability of the dynamical system and the travelling wave solutions for different stages of evolution of mutant cells were investigated. We observed the effect of variation and natural selection in shaping the carcinogenesis malignant mutation.
ISSN:1072-6691

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