The purpose of this study is to evaluate the efficacy of 3 different drug-eluting-stent platforms to reduce coronary artery reblockage after stent implantation
Coronary artery reblockage remains still a drawback of percutaneous coronary interventions even in the era of drug-eluting stents (DES). DESs working principle consists of the delivery of controlled amounts of antiproliferative agents at the local level, which results in the suppression of neontimal proliferation, the main cause of lumen re-narrowing after stent implantation.At present, several DES platforms have been developed and evaluated for clinical use. They differ between them with regard to the stent type, anti-proliferative drug, presence of polymers employed for drug storage and modification of drug-release kinetics as well as type of polymer used for this purpose. Most of the DES platforms have used agents from the "limus family". Although the majority of DESs employ polymer coating to control drug storage and release, in view of the increasing safety and efficacy associated with the long-term presence of polymers a strong interest has recently been shown in the development DES platforms that do not require permanent polymers. Trials as ACTION or JUPITER II have demonstrated that not all DESs are associated with the expected improved outcomes. On the other hand, not all successful DESs have been equally effective in the reduction of restenosis. Thus, rapamycin-eluting stents (Cypher stents) have been associated with lower angiographic and clinical restenosis rates than paclitaxel-eluting stents (Taxus stents). Similarly, Cypher stents have been superior to Endeavor stents regarding the primary end point of late luminal loss in the recent ENDEAVOR III trial. Meanwhile, the on-site rapamycin-coated stents (ISAR stents) had an equivalent antiproliferative efficacy to Taxus stents in the ISAR-TEST trial. However, none of these studies evaluated angiographic restenosis as their primary endpoint and no direct comparisons between the 3 DES -Cypher, Endeavor and ISAR stents, have been performed. The Cypher stent is a stainless steel stent coated with sirolimus with use of permanent polymers while the Endeavor stent is a cobalt alloy based stent coated with zotarolimus which also uses permanent polymers for drug-storage and release. The ISAR stent is a rough surface stainless steel stent that can be coated with sirolimus in the cath lab without requiring permanent polymeric coating.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
1,007
due to randomization, Cypher stent will be implanted
due to randomization, Endeavor stent will be implanted
due to randomization, rapamycin-eluting stent will be implanted
Deutsches Herzzentrum Muenchen
Munich, Germany
First Medizinische Klinik, Klinikum rechts der Isar
Munich, Germany
The primary end point of the study is the incidence of binary angiographic restenosis at 6-8 month follow-up angiography, measured by QCA in the in-segment area.
Time frame: 6-8 months
The need of target lesion revascularization defined as any revascularization procedure involving the target lesion due to luminal re-narrowing in the presence of symptoms or objective signs of ischemia.
Time frame: 9-12 months
The combined incidence of death or myocardial infarction.
Time frame: 9-12 months
In-stent late luminal loss.
Time frame: 9-12 months
Incidence of stent thrombosis.
Time frame: 9-12 months
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.