一种新型具有可生物降解聚合物基质的管腔外表面涂覆西罗莫司洗脱支架的临床前评估。
Preclinical evaluation of a novel abluminal surface coated sirolimus eluting stent with biodegradable polymer matrix.
作者信息
Sojitra Prakash, Doshi Manish, Galloni Marco, Vignolini Christina, Vyas Ashwin, Chevli Bhavesh, Sheiban Imad
机构信息
1 Envision Scientific Private Limited, Surat, Gujarat 395001, India ; 2 Life and Device S.r.l., Spin-Off of University of Turin, Turin, Italy ; 3 University of Turin, Turin, Torino, Italy.
出版信息
Cardiovasc Diagn Ther. 2015 Aug;5(4):254-63. doi: 10.3978/j.issn.2223-3652.2015.06.01.
BACKGROUND
Second generation of drug eluting stents (DES) has attempted to improve safety using abluminal sirolimus drug delivery with biodegradable polymers matrix. The present preclinical study was designed to investigate the safety and efficacy profile of Abluminus™ stents (SES). This is a new coronary stent with sirolimus and biodegradable polymer matrix coated on abluminal stent and balloon surface.
METHODS
SES were compared with two controls: bare metal stent (BMS) and BMS + polymer coated stents (PC). All devices (40 stents) were implanted in porcine coronary arteries with primary endpoint of endothelialization at 7 days and subsequent histological and morphometric evaluations at 7, 30 and 90 days.
RESULTS
Early endothelialization at seven days was complete in all stents. Histology at 30 days revealed minimum inflammation in all groups and increased at 90 days in PC group while it was absent at 180 days. Thirty day morphometry showed significantly reduction of neointimal area in Abluminus™ (SES 0.96±0.48 mm(2); BMS 1.83±0.34 mm(2); PC 1.76±0.55 mm(2); P<0.05); after 90 days neointimal area was 1.10±0.54 mm(2) for SES; 1.92±0.36 mm(2) for BMS; and 1.94±0.48 mm(2) for PC; P<0.05). Neointimal thickness at 30 and 90 days respectively was 0.15±0.07 and 0.18±0.10 mm for SES, 0.57±0.08 and 0.61±0.09 mm for BMS and 0.52±0.09 and 0.59±0.08 mm, P<0.001 for PC group.
CONCLUSIONS
The most significant experimental evidence appears to be earlier endothelialization at 7 days for SES which led to safety of the device. Efficacy of the device was also observed by a reduced neointimal thickness and minimized inflammatory score at all follow-ups. Termination of antiplatelet at 30 days has not shown any further complications. Polymer thickness was almost in negligible amount at 180 days with no inflammation.
背景
第二代药物洗脱支架(DES)试图通过使用可生物降解聚合物基质的管腔外西罗莫司药物递送方式来提高安全性。本临床前研究旨在调查Abluminus™支架(SES)的安全性和有效性。这是一种新型冠状动脉支架,其管腔外支架和球囊表面涂有西罗莫司和可生物降解聚合物基质。
方法
将SES与两个对照组进行比较:裸金属支架(BMS)和BMS+聚合物涂层支架(PC)。所有器械(40个支架)均植入猪冠状动脉,主要终点为7天时的内皮化情况,随后在7天、30天和90天时进行组织学和形态学评估。
结果
所有支架在7天时均完成早期内皮化。30天时的组织学检查显示所有组炎症轻微,PC组在90天时炎症增加,而在180天时无炎症。30天的形态学检查显示Abluminus™支架的新生内膜面积显著减少(SES为0.96±0.48mm²;BMS为1.83±0.34mm²;PC为1.76±0.55mm²;P<0.05);90天后,SES的新生内膜面积为1.10±0.54mm²;BMS为1.92±0.36mm²;PC为1.94±0.48mm²;P<0.05)。SES在30天和90天时的新生内膜厚度分别为0.15±0.07和0.18±0.10mm,BMS为0.57±0.08和0.61±0.09mm,PC组为0.52±0.09和0.59±0.08mm,P<0.001。
结论
最显著的实验证据似乎是SES在7天时更早的内皮化,这导致了该器械的安全性。在所有随访中,还观察到该器械通过减少新生内膜厚度和最小化炎症评分而具有有效性。30天时停用抗血小板药物未显示任何进一步的并发症。180天时聚合物厚度几乎可以忽略不计,且无炎症。
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