Polyphenol based hybrid nano-aggregates modified collagen fibers of biological valve leaflets to achieve enhanced mechanical, anticoagulation and anti-calcification properties

Journal of Leather Science and Engineering Pub Date : 2022-10-23 DOI:10.1186/s42825-022-00105-3

Shufen Li, Shiying Lang, Zhiqian Chen, Jingruo Chen, Weihua Zhuang, Yangrui Du, Yawen Yao, Gongyan Liu, Mao Chen

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引用次数: 1

Abstract

Glutaraldehyde (Glut)-crosslinked porcine pericardium and bovine pericardium are mainly consisted of collagen and widely used for the preparation of heterogenous bioprosthetic heart valves (BHV), which play an important role in the replacement therapy of severe valvular heart disease, while their durability is limited by degeneration due to calcification, thrombus, endothelialization difficulty and prosthetic valve endocarditis. Herein, we develop a novel BHV, namely, TPly-BP, based on natural tannic acid and polylysine to improve the durability of Glut crosslinked bovine pericardium (Glut-BP). Impressively, tannic acid and polylysine could form nanoaggregates via multiple hydrogen bonds and covalent bonds, and the introduction of nanoaggregates not only improved the mechanical properties and collagen stability but also endowed TPly-BP with good biocompatibility and hemocompatibility. Compared to Glut-BP, TPly-BP showed significantly reduced cytotoxicity, improved endothelial cell adhesion, a low hemolysis ratio and obviously reduced platelet adhesion. Importantly, TPly-BP exhibited great antibacterial and in vivo anti-calcification ability, which was expected to improve the in vivo durability of BHVs. These results suggested that TPly-BP would be a potential candidate for BHV.

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多酚基杂化纳米聚集体修饰生物瓣膜小叶的胶原纤维，实现增强的机械、抗凝血和抗钙化性能

戊二醛(Glut)交联的猪心包和牛心包主要由胶原蛋白组成，广泛用于制备异质生物人工心脏瓣膜(BHV)，在严重瓣膜性心脏病的替代治疗中发挥重要作用，但由于钙化、血栓、内皮化困难和人工瓣膜心内膜炎等原因导致的退变，限制了其耐久性。为了提高Glut交联牛心包(Glut- bp)的耐久性，我们开发了一种基于天然单宁酸和聚赖氨酸的新型BHV，即TPly-BP。单宁酸和聚赖氨酸可以通过多个氢键和共价键形成纳米聚集体，纳米聚集体的引入不仅提高了tpoly - bp的力学性能和胶原稳定性，而且赋予了tpoly - bp良好的生物相容性和血液相容性。与Glut-BP相比，TPly-BP显著降低细胞毒性，改善内皮细胞粘附，降低溶血率，明显降低血小板粘附。重要的是，TPly-BP具有良好的抗菌和体内抗钙化能力，有望提高bhv的体内持久性。这些结果表明，TPly-BP可能是BHV的潜在候选者。图形抽象

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来源期刊

Journal of Leather Science and Engineering 工程技术-材料科学：综合

CiteScore

12.80

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0.00%

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