一种具有生物可吸收聚合物表面涂层的新型缓释紫杉醇洗脱支架的评估。

Evaluation of a novel slow-release paclitaxel-eluting stent with a bioabsorbable polymeric surface coating.

作者信息

Jabara Refat, Chronos Nicolas, Conway Damian, Molema Warner, Robinson Keith

机构信息

Saint Joseph's Cardiovascular Research Institute, Saint Joseph's Hospital of Atlanta, 5673 Peachtree Dunwoody Road, Atlanta, GA 30342, USA.

出版信息

JACC Cardiovasc Interv. 2008 Feb;1(1):81-7. doi: 10.1016/j.jcin.2007.11.009.

DOI:10.1016/j.jcin.2007.11.009

PMID:19393150

Abstract

OBJECTIVES

We sought to evaluate a new second-generation drug-eluting stent (DES), comprising a slow-release biodegradable polylactide coglycolide (PLGA) polymer and low-dose paclitaxel on a thin-strut cobalt chromium stent platform, in a clinically relevant animal model.

BACKGROUND

Our previous work demonstrated subacute vascular toxicity and necrosis triggering late excess neointima in pig coronaries, with a moderate paclitaxel dose eluted from an erodible polymer. The use of slower-releasing absorbable polymers with lower doses of paclitaxel is expected to minimize such adverse outcomes.

METHODS

Three types of stents were implanted in pig coronary arteries using quantitative coronary angiography to optimize stent apposition: bare-metal stents (BMS); absorbable, slow-release polymer-coated-only stents (POLY); and absorbable polymer-based paclitaxel-eluting stents (PACL). The dose density of paclitaxel was 0.15 microg/mm(2) with in vitro studies demonstrating a gradual elution over the course of 12 to 16 weeks. Animals underwent angiographic restudy and were terminated at 1 and 3 months for complete histopathologic and histomorphometric analyses.

RESULTS

At 1 month, intimal thickness varied significantly according to stent type, with the lowest level for the PACL group compared with the BMS and POLY groups (0.06 +/- 0.02 mm vs. 0.17 +/- 0.07 mm, 0.17 +/- 0.08 mm, respectively, p < 0.001); histological percent area stenosis was 18 +/- 4% for PACL compared with 27 +/- 7% for BMS and 30 +/- 12% for POLY, respectively (p = 0.001). At 3 months, PACL showed similar neointimal thickness as BMS and POLY (0.09 +/- 0.05 mm vs. 0.13 +/- 0.10 mm and 0.11 +/- 0.03 mm respectively, p = 0.582). Histological percent area stenosis was 23 +/- 8% for PACL versus 23 +/- 11% for BMS and 23 +/- 2% for POLY, respectively (p = 1.000).

CONCLUSIONS

This study shows favorable vascular compatibility and efficacy for a novel DES that elutes paclitaxel in porcine coronary arteries. These results support the notion that slowing the release rate and lowering the dose of paclitaxel favorably influences the vascular biological response to DES implant, decreasing early toxicity and promoting stable healing while still suppressing neointima formation.

摘要

目的

我们试图在一个具有临床相关性的动物模型中，评估一种新型第二代药物洗脱支架（DES），该支架由缓释可生物降解聚丙交酯乙交酯（PLGA）聚合物和低剂量紫杉醇组成，置于薄支柱钴铬支架平台上。

背景

我们之前的研究表明，在猪冠状动脉中，中等剂量紫杉醇从可侵蚀聚合物中洗脱会引发亚急性血管毒性和坏死，进而导致晚期新生内膜过度增生。使用释放速度更慢的可吸收聚合物和更低剂量的紫杉醇有望将此类不良后果降至最低。

方法

使用定量冠状动脉造影术将三种类型的支架植入猪冠状动脉，以优化支架贴壁：裸金属支架（BMS）；仅涂有可吸收、缓释聚合物的支架（POLY）；以及基于可吸收聚合物的紫杉醇洗脱支架（PACL）。紫杉醇的剂量密度为0.15微克/平方毫米，体外研究表明其在12至16周的时间内逐渐洗脱。对动物进行血管造影复查，并在1个月和3个月时处死，以进行完整的组织病理学和组织形态计量学分析。

结果

在1个月时，内膜厚度根据支架类型有显著差异，PACL组的内膜厚度最低，与BMS组和POLY组相比（分别为0.06±0.02毫米 vs. 0.17±0.07毫米，0.17±0.08毫米，p<0.001）；PACL组的组织学面积狭窄百分比为18±4%，而BMS组为27±7%，POLY组为30±12%（p = 0.001）。在3个月时，PACL组的新生内膜厚度与BMS组和POLY组相似（分别为0.09±0.05毫米 vs. 0.13±0.10毫米和0.11±0.03毫米，p = 0.582）。PACL组的组织学面积狭窄百分比为23±8%，BMS组为23±11%，POLY组为23±2%（p = 1.000）。