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药物洗脱支架预防支架内血栓形成和再狭窄。

Drug-eluting stents to prevent stent thrombosis and restenosis.

作者信息

Im Eui, Hong Myeong-Ki

机构信息

a Yongin Severance Hospital , Yonsei University Health System , Yongin , Republic of Korea.

b Division of Cardiology, Severance Cardiovascular Hospital , Yonsei University Health System , Seoul , Republic of Korea.

出版信息

Expert Rev Cardiovasc Ther. 2016;14(1):87-104. doi: 10.1586/14779072.2016.1112267. Epub 2015 Nov 14.

DOI:10.1586/14779072.2016.1112267
PMID:26567863
Abstract

Although first-generation drug-eluting stents (DES) have significantly reduced the risk of in-stent restenosis, they have also increased the long-term risk of stent thrombosis. This safety concern directly triggered the development of new generation DES, with innovations in stent platforms, polymers, and anti-proliferative drugs. Stent platform materials have evolved from stainless steel to cobalt or platinum-chromium alloys with an improved strut design. Drug-carrying polymers have become biocompatible or biodegradable and even polymer-free DES were introduced. New limus-family drugs (such as everolimus, zotarolimus or biolimus) were adopted to enhance stent performances. As a result, these new DES demonstrated superior vascular healing responses on intracoronary imaging studies and lower stent thrombotic events in actual patients. Recently, fully-bioresorbable stents (scaffolds) have been introduced, and expanding their applications. In this article, the important concepts and clinical results of new generation DES and bioresorbable scaffolds are described.

摘要

尽管第一代药物洗脱支架(DES)显著降低了支架内再狭窄的风险,但它们也增加了支架血栓形成的长期风险。这种安全问题直接推动了新一代DES的研发,在支架平台、聚合物和抗增殖药物方面都有创新。支架平台材料已从不锈钢发展到钴或铂铬合金,同时改进了支柱设计。载药聚合物已变得具有生物相容性或可生物降解,甚至还推出了无聚合物的DES。新型雷帕霉素类药物(如依维莫司、佐他莫司或比伐卢定)被采用以提高支架性能。结果,这些新型DES在冠状动脉内成像研究中显示出优越的血管愈合反应,并且在实际患者中支架血栓形成事件较少。最近,完全可生物吸收支架(支架)已被引入并正在扩大其应用。本文描述了新一代DES和可生物吸收支架的重要概念和临床结果。

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