Tunable catalytic release of nitric oxide via copper-loaded coatings on titanium nanotubes for regulating biological performance

IF 1.6 Q4 ENGINEERING, BIOMEDICAL Biosurface and Biotribology Pub Date : 2023-06-01 DOI:10.1049/bsb2.12060

Zhiyong Li, Lu Zhang, Lei Zhou, Xin Li, Yuancong Zhao, Jin Wang

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Abstract

Severe lesions in vessels need to be treated with implantable interventional devices such as vascular stents, which should be anti-coagulantion, anti-proliferation and promoting endothelialisation. Nitric oxide (NO), as a physiological gas signalling molecule, play an important role in revascularisation. Catalysing the release of NO from endogenous donors has already been widely favoured to treatment strategy for lesioned vessels. In this work, a series of copper-loaded coatings (titanium nanotube (TNT)/PDA-Cu) was fabricated by TNTs combined with polydopamine and ions, which achieve controlled in situ catalytic release of NO. This strategy could effectively immobilised copper ions on TNTs, and promoted the proliferation of endothelial cells and inhibited growth of smooth muscle cells (SMCs) via the performance of NO, as well as restrain the platelet adhesion. With the multiple function, TNT/PDA-Cu provides a promise approach for promoting endothelialisation, anti-coagulation and inhibition of SMC proliferation via copper-loaded coatings on TNTs.

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钛纳米管载铜涂层可调谐催化释放一氧化氮调节生物性能

严重的血管病变需要植入式介入装置如血管支架治疗，血管支架应具有抗凝血、抗增殖和促进内皮化的功能。一氧化氮(NO)作为一种生理气体信号分子，在血管重建中起着重要作用。催化内源性供体释放一氧化氮已被广泛用于治疗病变血管的策略。本文利用纳米钛与聚多巴胺和离子结合制备了一系列载铜涂层(钛纳米管(TNT)/PDA-Cu)，实现了NO的原位可控催化释放。该策略可以有效地将铜离子固定在tnt上，并通过NO的作用促进内皮细胞的增殖，抑制平滑肌细胞(SMCs)的生长，抑制血小板粘附。由于具有多种功能，TNT/PDA-Cu通过在TNT上负载铜涂层促进内皮化、抗凝血和抑制SMC增殖是一种很有前景的方法。

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