Novel approach for biomaterial assessment: utilizing the Ex Ovo quail cam assay for biocompatibility pre-screening.

IF 1.8 3区 农林科学 Q2 VETERINARY SCIENCES
Zuzana Tirpakova, Zuzana Demcisakova, Lenka Luptakova, Julia Hurnikova, Matus Coma, Lukas Urban, Peter Gal, Lubomir Medvecky, Eva Petrovova
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Abstract

In recent years, the chorioallantoic membrane (CAM) has emerged as a crucial component of biocompatibility testing for biomaterials designed for regenerative strategies and tissue engineering applications. This study explores angiogenic potential of an innovative acellular and porous biopolymer scaffold, based on polyhydroxybutyrate and chitosan (PHB/CHIT), using the ex ovo quail CAM assay as an alternative to the conventional chick CAM test. On embryonic day 6 (ED6), we placed the tested biomaterials on the CAM alone or soaked them with various substances, including vascular endothelial growth factor (VEGF-A), saline, or the endogenous angiogenesis inhibitor Angiostatin. After 72 h (ED9), we analyzed blood vessels formation, a sign of ongoing angiogenesis, in the vicinity of the scaffold and within its pores. We employed marker for cell proliferation (PHH3), embryonic endothelium (WGA, SNA), myofibroblasts (α-SMA), and endothelial cells (QH1) for morphological and histochemical analysis. Our findings demonstrated the robust angiogenic potential of the untreated scaffold without additional influence from the angiogenic factor VEGF-A. Furthermore, gene expression analysis revealed an upregulation of pro-angiogenic growth factors, including VEGF-A, ANG-2, and VE-Cadherin after 5 days of implantation, indicative of a pro-angiogenic microenvironment. These results underscore the inherent angiogenic potential of the PHB/CHIT composite. Additionally, monitoring of CAM microvilli growing to the scaffold provides a methodology for investigating the biocompatibility of materials using the ex ovo quail CAM assay as a suitable alternative model compared to the chicken CAM platform. This approach offers a rapid screening method for biomaterials in the field of tissue repair/regeneration and engineering.

生物材料评估的新方法:利用体外鹌鹑凸轮检测法进行生物相容性预筛选。
近年来,绒毛膜(CAM)已成为再生策略和组织工程应用生物材料生物相容性测试的重要组成部分。本研究采用体外鹌鹑CAM试验替代传统的小鸡CAM试验,探讨了基于聚羟基丁酸酯和壳聚糖(PHB/CHIT)的创新性无细胞多孔生物聚合物支架的血管生成潜力。在胚胎第 6 天(ED6),我们将受测生物材料单独放在 CAM 上,或用各种物质浸泡,包括血管内皮生长因子(VEGF-A)、生理盐水或内源性血管生成抑制剂 Angiostatin。72 小时后(ED9),我们分析了支架附近和支架孔内的血管形成情况,这是血管持续生成的标志。我们采用细胞增殖标记物(PHH3)、胚胎内皮(WGA、SNA)、肌成纤维细胞(α-SMA)和内皮细胞(QH1)进行形态学和组织化学分析。我们的研究结果表明,未经处理的支架具有强大的血管生成潜能,而不会受到血管生成因子 VEGF-A 的额外影响。此外,基因表达分析表明,植入 5 天后,促血管生成生长因子(包括 VEGF-A、ANG-2 和 VE-Cadherin)上调,表明存在一个促血管生成的微环境。这些结果凸显了 PHB/CHIT 复合材料固有的血管生成潜力。此外,监测支架上生长的 CAM 微绒毛为研究材料的生物相容性提供了一种方法,与鸡 CAM 平台相比,使用体外鹌鹑 CAM 试验是一种合适的替代模型。这种方法为组织修复/再生和工程领域的生物材料提供了一种快速筛选方法。
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来源期刊
Veterinary Research Communications
Veterinary Research Communications 农林科学-兽医学
CiteScore
2.50
自引率
0.00%
发文量
173
审稿时长
3 months
期刊介绍: Veterinary Research Communications publishes fully refereed research articles and topical reviews on all aspects of the veterinary sciences. Interdisciplinary articles are particularly encouraged, as are well argued reviews, even if they are somewhat controversial. The journal is an appropriate medium in which to publish new methods, newly described diseases and new pathological findings, as these are applied to animals. The material should be of international rather than local interest. As it deliberately seeks a wide coverage, Veterinary Research Communications provides its readers with a means of keeping abreast of current developments in the entire field of veterinary science.
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