基于人工智能的聚合物和胶原支架诱导血管生成分析。

Artificial Intelligence (AI) Based Analysis of Polymers and Collagen Scaffolds Inducing Vascularization.

机构信息

Doctoral School, Victor Babes University of Medicine and Pharmacy Timisoara, Timisoara, Romania.

Emergency Hospital for Children Louis Turcanu, Timisoara, Romania.

出版信息

In Vivo. 2024 Mar-Apr;38(2):620-629. doi: 10.21873/invivo.13481.

DOI:10.21873/invivo.13481

PMID:38418141

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10905450/

Abstract

BACKGROUND/AIM: Biomaterials are essential in modern medicine, both for patients and research. Their ability to acquire and maintain functional vascularization is currently debated. The aim of this study was to evaluate the vascularization induced by two collagen-based scaffolds (with 2D and 3D structures) and one non-collagen scaffold implanted on the chick embryo chorioallantoic membrane (CAM).

MATERIALS AND METHODS

Classical stereomicroscopic image vascular assessment was enhanced with the IKOSA software by using two applications: the CAM assay and the Network Formation Assay, evaluating the vessel branching potential, vascular area, as well as tube length and thickness.

RESULTS

Both collagen-based scaffolds induced non-inflammatory angiogenesis, but the non-collagen scaffold induced a massive inflammation followed by inflammatory-related angiogenesis. Vessels branching points/Region of Interest (Px^2) and Vessel branching points/Vessel total area (Px^2), increased exponentially until day 5 of the experiment certifying a sustained and continuous angiogenic process induced by 3D collagen scaffolds.

CONCLUSION

Collagen-based scaffolds may be more suitable for neovascularization compared to non-collagen scaffolds. The present study demonstrates the potential of the CAM model in combination with AI-based software for the evaluation of vascularization in biomaterials. This approach could help to reduce and replace animal experimentation in the pre-screening of biomaterials.

摘要

背景/目的：生物材料在现代医学中至关重要，无论是对患者还是对研究人员而言。目前，人们对它们获取和维持功能性血管生成的能力存在争议。本研究旨在评估两种基于胶原蛋白的支架（具有 2D 和 3D 结构）和一种非胶原蛋白支架在鸡胚绒毛尿囊膜（CAM）上植入后诱导的血管生成。

材料和方法

经典体视显微镜图像血管评估通过 IKOSA 软件的两种应用进行增强：CAM 测定和网络形成测定，评估血管分支潜力、血管面积以及管长度和厚度。

结果

两种基于胶原蛋白的支架都诱导了非炎症性血管生成，但非胶原蛋白支架诱导了大量炎症，随后发生了炎症相关的血管生成。血管分支点/感兴趣区域（Px^2）和血管分支点/血管总面积（Px^2）呈指数增长，直到实验第 5 天，这证明了 3D 胶原蛋白支架持续和连续的血管生成过程。

结论

与非胶原蛋白支架相比，基于胶原蛋白的支架可能更适合血管新生。本研究证明了 CAM 模型与基于人工智能的软件相结合在评估生物材料血管生成方面的潜力。这种方法可以帮助减少和替代生物材料的动物实验前筛选。

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