ABSTRACT
The objective of this study was to bench-test provisional bifurcation stenting strategies to provide insights on how best to perform these with drug-eluting stents (DESs). Bifurcation stenting with DESs reduces restenosis compared with bare metal stents (BMSs). Outcomes with a single DES are better than with two DESs but if the main branch is stented, there needs to be a reliable strategy for provisionally stenting the side-branch with full ostial scaffolding and drug application. Stents were photographed in a phantom after deployment with different strategies. With provisional T-stenting, placement of the side-branch stent without gaps is difficult. The internal (or reverse) crush strategy fully scaffolds the side-branch ostium but is experimental. The culotte technique providing excellent side-branch ostial coverage is easier to perform with open-cell or large-cell stent design. In general, kissing balloon post-dilation improves stent expansion, especially at the ostium, and corrects distortion. However, a main-branch kissing balloon of smaller diameter than the deploying balloon causes distortion. Final main-branch postdilatation or sequential postdilatation prevents distortion after the internal crush strategy.
Subject(s)
Angioplasty, Balloon, Coronary/methods , Coronary Restenosis/prevention & control , Stents , Humans , Prosthesis DesignABSTRACT
Sirolimus-eluting stents appear to reduce substantially restenosis following percutaneous coronary bifurcation intervention. The crush technique was devised to reduce restenosis further by improving stent and drug application to the side-branch ostium. We aimed to investigate the performance of drug-eluting stent (DES) platforms with the crush technique, to identify deployment pitfalls, and to clarify the best deployment strategies. Each stage of the crush technique was photographed in a bifurcation phantom. Simultaneous side- and main-branch dilatation (kissing balloons) fully expanded the stent in the side-branch ostium, widened the gaps between stent struts covering the side branch, and eliminated main-branch distortion. With side branches angled at > 70 degrees , sequential (side- then main-branch) inflations may be needed to achieve best results. Postdilatation of the main branch with a balloon of narrower diameter than the deploying balloon caused main-branch stent distortion. These principles applied to all the bifurcation strategies and stent designs tested.
Subject(s)
Angioplasty, Balloon, Coronary/methods , Coronary Restenosis/prevention & control , Stents , Humans , Prosthesis DesignSubject(s)
Coronary Vessels/pathology , Coronary Vessels/surgery , Stents , Angioplasty, Balloon, Coronary , Blood Vessel Prosthesis Implantation/methods , Coated Materials, Biocompatible/therapeutic use , Coronary Angiography , Coronary Stenosis/diagnosis , Coronary Stenosis/therapy , Electrocardiography , Equipment Design , Humans , Male , Middle AgedABSTRACT
We assessed the feasibility and safety of a strategy of transfemoral percutaneous coronary intervention (PCI) with bivalirudin anticoagulation, immediate sheath removal, early ambulation, and, where possible, same-day discharge in 100 consecutive patients. Ambulation was achieved by 2 hr 30 min in 85% of patients and same-day discharge in 26%. PCI was angiographically successful in 97%. In hospital, there were no deaths or Q-wave myocardial infarctions. One patient suffered a non-Q-wave infarction, another in-hospital surgical revascularization and one required blood transfusion for rectal bleeding. Femoral access site hematoma > 5 cm diameter occurred in two patients. In addition, by 1 month there had been one death (at 10 days) and one pseudoaneurysm treated nonsurgically. In this preliminary study, the strategy of bivalirudin bolus anticoagulation, immediate sheath removal, and 2-hr ambulation after PCI appeared safe, with same-day discharge possible in 26% of unselected patients with stable or unstable angina.