CVPath Institute, Inc., Gaithersburg, Maryland.
Abbott Vascular, Santa Clara, California.
Catheter Cardiovasc Interv. 2024 Jul;104(1):10-20. doi: 10.1002/ccd.31083. Epub 2024 May 20.
During the transition from dual antiplatelet therapy (DAPT) to single antiplatelet therapy (SAPT), previous studies have raised concerns about a rebound effect. We compared platelet and inflammatory cell adhesion on different types of stents in the setting of clopidogrel presence and withdrawal.
In Experiment 1, three pigs were administered with DAPT, that is, clopidogrel and acetylsalicylic acid (ASA), for 7 days. Each animal underwent an extracorporeal carotid arteriovenous shunt model implanted with fluoropolymer-coated everolimus-eluting stent (FP-EES), biodegradable-polymer sirolimus-eluting stent (BP-SES), and biodegradable-polymer everolimus-eluting stents (BP-EES). In Experiment 2, two pigs were administered DAPT, clopidogrel was then withdrawn at day 7, and SAPT with ASA was continued for next 21 days. Then flow-loop experiments with the drawn blood from each time point were performed for FP-EES, BioLinx-polymer zotarolimus-eluting stents (BL-ZES), and BP-EES. The rebound effect was defined as the statistical increase of inflammation and platelet adhesion assessed with immunohistochemistry on the stent-strut level basis from baseline to day-14 or 28.
Both experiments showed platelet adhesion value was highest in BP-EES, while the least in FP-EES during DAPT therapy. There was no increase in platelet or inflammatory cell adhesion above baseline values (i.e., no therapy) due to the cessation of clopidogrel on the stent-strut level. Monocyte adhesion was the least for FP-EES with the same trend observed for neutrophil adhesion.
No evidence of rebound effect was seen after the transition from DAPT to SAPT. FP-EES demonstrated the most favorable antithrombotic and anti-inflammatory profile regardless of the different experimental designs.
在双联抗血小板治疗(DAPT)向单联抗血小板治疗(SAPT)转换期间,先前的研究对反弹效应提出了担忧。我们比较了氯吡格雷存在和停用情况下不同类型支架上血小板和炎性细胞黏附的情况。
在实验 1 中,3 头猪接受了 7 天的 DAPT,即氯吡格雷和乙酰水杨酸(ASA)。每只动物均进行了体外颈动脉动静脉分流模型植入,该模型植入了含氟聚合物涂层依维莫司洗脱支架(FP-EES)、生物可降解聚合物西罗莫司洗脱支架(BP-SES)和生物可降解聚合物依维莫司洗脱支架(BP-EES)。在实验 2 中,2 头猪接受了 DAPT,第 7 天停用氯吡格雷,然后继续接受 SAPT 联合 ASA 治疗 21 天。然后在每个时间点从抽取的血液进行血流循环实验,以 FP-EES、BioLinx 聚合物佐他莫司洗脱支架(BL-ZES)和 BP-EES 进行。反弹效应定义为支架支柱水平的炎症和血小板黏附评估的免疫组织化学从基线到第 14 天或第 28 天的统计增加。
两个实验均表明,在 DAPT 治疗期间,BP-EES 的血小板黏附值最高,而 FP-EES 的血小板黏附值最低。由于支架支柱水平上氯吡格雷的停用,血小板或炎性细胞黏附没有增加到基线值以上(即无治疗)。在 FP-EES 上,单核细胞黏附最少,中性粒细胞黏附也呈现出相同的趋势。
从 DAPT 向 SAPT 转换后,没有观察到反弹效应的证据。FP-EES 表现出最有利的抗血栓和抗炎特性,无论不同的实验设计如何。
