Hybrid roles of adaptation and optimization in formation of vascular network

arXiv - PHYS - Biological Physics Pub Date : 2024-09-12 DOI:arxiv-2409.07824
Yawei Wang, Zilu Qin, Yubo Fan
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Abstract

It was hypothesized that the structures of biological transport networks are the result of either energy consumption or adaptation dynamics. Although approaches based on these hypotheses can produce optimal network and form loop structures, we found that neither possesses complete ability to generate complex networks that resemble vascular network in living organisms, which motivated us to propose a hybrid approach. This approach can replicate the path dependency phenomenon of main branches and produce an optimal network that resembles the real vascular network. We further show that there is a clear transition in the structural pattern of the vascular network, shifting from `chive-like' to dendritic configuration after a period of sequenced adaptation and optimization.
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适应和优化在血管网络形成中的混合作用
根据假设,生物运输网络的结构是能量消耗或适应动态的结果。虽然基于这些假设的方法可以生成最优网络并形成环路结构,但我们发现这两种方法都不具备生成类似于生物体内血管网络的复杂网络的完整能力,这促使我们提出了一种混合方法。这种方法可以复制主枝的路径依赖现象,生成类似真实血管网络的最优网络。我们进一步证明,血管网络的结构模式有一个明显的转变,经过一段时间的有序适应和优化后,从 "树枝状 "结构转变为 "蜂巢状 "结构。
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arXiv - PHYS - Biological Physics
arXiv - PHYS - Biological Physics
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