Modeling Avascular Tumor Growth: Approach with an Adaptive Grid Numerical Technique

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
A. Amoddeo
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引用次数: 4

Abstract

The mathematical modeling of complex biological systems leads to system of coupled nonlinear partial differential equations (PDEs). In this paper, we present a short review on the interaction of the urokinase plasminogen activator (uPA) system with a model for cancer cell in the avascular phase, faced using the moving mesh PDE/(MMPDE) numerical technique. The dynamical evolution of the system as a function of the diffusion properties of cancer cells has been considered, as well as the effect of hypoxia to the cancer evolution, introducing a model equation for the nutrient oxygen. The model parameters have been taken from the data existing in the literature, in particular to gauge the oxygen supply, data determined from in vivo experiments on human tumors have been used. The numerical results obtained simulating a one-dimensional portion of the biological tissue are consistent with the data existing in the literature. Our high-resolution computations show that cancer proliferation begins through highly irregular spatio-temporal pattern, which depends on cancer motility characteristics. In presence of hypoxia, the cancer proliferation patterns are still characterized by an inhomogeneous pattern, but other effects are present which depend on the model parameters, triggered by the oxygen.
血管性肿瘤生长模型的自适应网格数值方法
复杂生物系统的数学建模导致了耦合非线性偏微分方程系统。在本文中,我们简要回顾了尿激酶纤溶酶原激活剂(uPA)系统与无血管期癌细胞模型的相互作用,采用移动网格PDE/(MMPDE)数值技术进行了研究。本文考虑了系统的动态演化作为癌细胞扩散特性的函数,以及缺氧对肿瘤演化的影响,引入了营养氧的模型方程。模型参数取自文献中已有的数据,特别是测量供氧量时,使用的数据来自于人体肿瘤的体内实验。模拟生物组织一维部分得到的数值结果与文献中已有的数据一致。我们的高分辨率计算表明,癌症的增殖始于高度不规则的时空模式,这取决于癌症的运动特征。在缺氧的情况下,癌细胞的增殖模式仍然以不均匀模式为特征,但存在由氧气触发的其他影响,这些影响取决于模型参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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