Moving mesh partial differential equations modelling to describe oxygen induced effects on avascular tumour growth

A. Amoddeo
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引用次数: 15

Abstract

Abstract The urokinase plasminogen activator (uPA) is a proteolytic enzyme, which over expression by cancer cells is recognized as promoting tumour growth and proliferation. In the early stage of formation, cancer cells grow in the avascular phase and oxygen supply come from surrounding healthy tissue. Using parameters estimated from in vivo experiments on human tumours, we simulate the effects of hypoxic conditions on cancer cell interacting with the uPA system, in the avascular phase. The resulting system of six-coupled partial differential equations is solved over one-dimensional domain implementing an adaptive grid technique, using the finite element method. Our results predict that changes of both diffusion and uptake/decay coefficients for oxygen, because of possible microenvironment changes of cancer cells, induce variations of the invasion velocity, with crowding effects during cell growth and proliferation.
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移动网格偏微分方程模型描述氧诱导对无血管肿瘤生长的影响
尿激酶纤溶酶原激活物(uPA)是一种蛋白水解酶,在癌细胞中过表达可促进肿瘤生长和增殖。在形成的早期,癌细胞在无血管期生长,氧气供应来自周围的健康组织。利用从人体肿瘤体内实验中估计的参数,我们模拟了缺氧条件对无血管期与uPA系统相互作用的癌细胞的影响。采用自适应网格技术,利用有限元法在一维域上求解六耦合偏微分方程组。我们的研究结果预测,由于癌细胞可能的微环境变化,氧气的扩散和摄取/衰减系数的变化,诱导了细胞入侵速度的变化,并在细胞生长和增殖过程中产生拥挤效应。
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Cogent Physics
Cogent Physics PHYSICS, MULTIDISCIPLINARY-
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