Inhibition of Neointima Formation by a Novel Drug-eluting Stent System That Allows for Dose-adjustable, Multiple, and On-site Stent Coating

Overview

Journal Arterioscler Thromb Vasc Biol

Date 2005 Feb 1

PMID 15681298

Citations 25

Authors

Rainer Wessely

Jorg Hausleiter

Cornelia Michaelis

Birgit Jaschke

Michael Vogeser

Stefan Milz

Boris Behnisch

Thomas Schratzenstaller

Magdalena Renke-Gluszko

Michael Stover

Erich Wintermantel

Adnan Kastrati

Albert Schomig

Affiliations

Soon will be listed here.

Abstract

Objective: The risk of in-stent restenosis can be considerably reduced by stents eluting cytostatic compounds. We created a novel drug-eluting stent system that includes several new features in the rapidly evolving field of stent-based drug delivery.

Methods And Results: The aim of the present study was the preclinical evaluation of a stent-coating system permitting individual, on-site coating of stents with a unique microporous surface allowing for individualizable, dose-adjustable, and multiple coatings with identical or various compounds, designated ISAR (individualizable drug-eluting stent system to abrogate restenosis). Stents were coated with 0.75% rapamycin solution, and high-performance liquid chromatography (HPLC)-based determination of drug release profile indicated drug release for >21 days. Rapamycin-eluting microporous (REMP) stents implanted in porcine coronary arteries were safe. To determine the efficacy of REMP stents, this novel drug-eluting stent platform was compared with the standard sirolimus-eluting stent. At 30 days, in-stent neointima formation in porcine coronary arteries was similar in both groups, yielding a significant decrease of neointimal area and injury-dependent neointimal thickness compared with bare-metal stents.

Conclusions: The ISAR drug-eluting stent platform as a novel concept for stent coating allows for a safe, effective, on-site stent coating process, thus justifying further clinical evaluation to decrease in-stent restenosis in humans.

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