血管网络拓扑的基本原理。

Fundamental principles of vascular network topology.

作者信息

Kopylova Veronika S, Boronovskiy Stanislav E, Nartsissov Yaroslav R

机构信息

Mathematical Modelling and Statistical Analysis, Institute of Cytochemistry and Molecular Pharmacology, Moscow, Russia

Mathematical Modelling and Statistical Analysis, Institute of Cytochemistry and Molecular Pharmacology, Moscow, Russia.

出版信息

Biochem Soc Trans. 2017 Jun 15;45(3):839-844. doi: 10.1042/BST20160409.

DOI:10.1042/BST20160409

PMID:28620045

Abstract

The vascular system is arguably the most important biological system in many organisms. Although the general principles of its architecture are simple, the growth of blood vessels occurs under extreme physical conditions. Optimization is an important aspect of the development of computational models of the vascular branching structures. This review surveys the approaches used to optimize the topology and estimate different geometrical parameters of the vascular system. The review is focused on optimizations using complex cost functions based on the minimum total energy principle and the relationship between the laws of growth and precise vascular network topology. Experimental studies of vascular networks in different species are also discussed.

摘要

血管系统可以说是许多生物体中最重要的生物系统。尽管其结构的一般原理很简单，但血管的生长是在极端物理条件下发生的。优化是血管分支结构计算模型开发的一个重要方面。本文综述了用于优化血管系统拓扑结构和估计不同几何参数的方法。综述重点关注基于最小总能量原理使用复杂成本函数的优化方法，以及生长规律与精确血管网络拓扑结构之间的关系。还讨论了不同物种血管网络的实验研究。

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血管网络拓扑的基本原理。

Fundamental principles of vascular network topology.

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