Microscopic simulation of the chemomechanics of squamous cell tissue

A. D. Bratsun, D. Bratsun, I. Krasnyakov
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Abstract

The development of computer technologies makes it possible to implement a mathematical model of tissue dynamics, which includes the behavior of individual cells. The paper describes a mathematical model of a quasi-two-dimensional tissue, which consists of cells represented by dynamically changing polygons. The model includes two important processes that mimic the properties of real cells, namely mitotic division and intercalation. An equation of motion based on the elastic potential energy is written for each vertex of the polygonal cell. In the course of evolution, the tissue tends to take a position corresponding to the minimum of potential energy. The model allows a simple extension to the case of the feedback between the biomechanical and chemical properties of the medium and the introduction of several competing tissue types. The results of numerical simulation of heterogeneous carcinoma of the solid type are given as an example. The prospects for the development of this approach to simulation are discussed.
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鳞状细胞组织化学力学的显微模拟
计算机技术的发展使实现组织动力学的数学模型成为可能,其中包括单个细胞的行为。本文描述了一个准二维组织的数学模型,该组织由动态变化的多边形表示的细胞组成。该模型包括模拟真实细胞特性的两个重要过程,即有丝分裂和嵌入。在此基础上,对多边形单元的每个顶点建立了基于弹性势能的运动方程。在演化过程中,组织趋向于选择势能最小值所对应的位置。该模型可以简单地扩展到介质的生物力学和化学性质之间的反馈以及引入几种竞争组织类型的情况。给出了固体型非均质癌的数值模拟结果。最后对该方法的发展前景进行了展望。
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