2021
Novel Supreme Drug-Eluting Stents With Early Synchronized Antiproliferative Drug Delivery to Inhibit Smooth Muscle Cell Proliferation After Drug-Eluting Stents Implantation in Coronary Artery Disease
Lansky AJ, Kereiakes DJ, Baumbach A, Windecker S, Hussain Y, Pietras C, Dressler O, Issever O, Curtis M, Bertolet B, Zidar JP, Smits PC, Díaz V, McLaurin B, Hofma S, Cequier Á, Dib N, Benit E, Mathur A, Brogno D, Berland J, Wykrzykowska J, Piegari G, Brugaletta S, Saito S, Leon MB, Investigators O. Novel Supreme Drug-Eluting Stents With Early Synchronized Antiproliferative Drug Delivery to Inhibit Smooth Muscle Cell Proliferation After Drug-Eluting Stents Implantation in Coronary Artery Disease. Circulation 2021, 143: 2143-2154. PMID: 33820424, DOI: 10.1161/circulationaha.120.052482.Peer-Reviewed Original ResearchConceptsDurable polymer everolimus-eluting stentsDrug-eluting stentsTarget lesion revascularizationAntiproliferative drug deliveryChronic coronary syndromeVessel myocardial infarctionLesion revascularizationCoronary syndromeLesion failureMyocardial infarctionDrug-Eluting Stent ImplantationTarget vessel myocardial infarctionLong-term clinical outcomesDP-EES groupPrimary end pointTarget lesion failureSmooth muscle cell proliferationPercutaneous coronary interventionSingle-blind trialCoronary artery diseaseEverolimus-eluting stentsMuscle cell proliferationLong-term inflammatory responseDrug eluting stentsCardiovascular death
2004
Non–Polymer-Based Paclitaxel-Coated Coronary Stents for the Treatment of Patients With De Novo Coronary Lesions
Lansky AJ, Costa RA, Mintz GS, Tsuchiya Y, Midei M, Cox DA, O’Shaughnessy C, Applegate RA, Cannon LA, Mooney M, Farah A, Tannenbaum MA, Yakubov S, Kereiakes DJ, Wong SC, Kaplan B, Cristea E, Stone GW, Leon MB, Knopf WD, O’Neill W. Non–Polymer-Based Paclitaxel-Coated Coronary Stents for the Treatment of Patients With De Novo Coronary Lesions. Circulation 2004, 109: 1948-1954. PMID: 15078794, DOI: 10.1161/01.cir.0000127129.94129.6f.Peer-Reviewed Original ResearchConceptsTarget vessel failureDe novo coronary lesionsNovo coronary lesionsBinary restenosisEnd pointCoronary lesionsMore type C lesionsPrespecified primary end pointPrespecified end pointStent binary restenosisBaseline clinical characteristicsPrimary end pointSecondary end pointsType C lesionsSmooth muscle cell proliferationMulticenter Clinical EvaluationStent late lossTreatment of patientsLarger reference diameterMuscle cell proliferationMicrotubule-stabilizing compoundClinical characteristicsPotent antitumor activityC lesionsClinical evaluation