Coronary Artery Disease Clinical Trial
Official title:
A Trial of Evaluating Additional Benefit of Cilostazol to Dual Antiplatelet Therapy in Patients With Long or Multi-vessel Coronary Artery Disease Underwent Biolimus-Eluting Stent Implantation
Because there is limited data about long-term efficacy and safety about short-term use of cilostazol adding to dual antiplatelet therapy in patients with long or multivessel coronary artery disease after 2nd generation DES implantation, especially in biodegradable polymer stent, the investigators will evaluate whether a 3-month use of cilostazol in addition to dual antiplatelet therapy effectively reduces clinical adverse outcome at 1 year in subject with long or multivessel coronary artery disease after biolimus-eluting stent implantation.
Previous randomized trials have shown the efficacy of drug-eluting stent (DES) such as
sirolimus-eluting stent (CYPHERTM, Cordis, Warren, NJ, USA), paclitaxel-eluting stent
(TAXUSTM, BostonScientific, Natick, MA, USA), and zotarolimus-eluting stent
(Endeavor,Medtronic,Minneapolis, MN, USA) over bare metal stents (BMS) in reducing
neointimal hyperplasia, late luminal loss, and angiographic restenosis leading to decreased
target lesion revascularization.1-4 In addition, Among patients with off-label indications,
the use of DESs reduced a rate of repeat revascularization without increasing the risk of
death or myocardial infarction, as compared with bare-metal stents.5 But, compared with
on-label use, off-label use of DESs is associated with a higher rate of adverse outcomes
such as death, myocardial infarction and target vessel revascularization. Furthermore, stent
thrombosis (ST) occurred predominantly in patients who underwent off-label DES
implantation.6 It is known that the risk of adverse cardiac events and ST after DES
implantation is related to stent length.7 Cilostazol is a potent phosphodiesterase III
inhibitor preventing the hydrolysis of cAMP in platelets and vascular smooth muscle cell.
The novel mechanism of action of cilostazol reduces the number of circulating, partially
activated, or preconditioned platelets, by reducing the surface expression of adhesive
molecules in endothelial cells interacting with circulating platelets. The agent also
directly inhibits platelet aggregation induced by a variety of stimuli, including
arachidonic acid, ADP, collagen, thrombin, and high shear stress.8 In current guidelines, a
12-month duration of dual antiplatelet therapy with aspirin and clopidogrel is recommended
after DES implantation.9 But, recent meta-analyses showed a potential benefit of cilostazol
in addition to dual antiplatelet therapy in reducing angiographic restenosis and improved
clinical outcomes after BMS or DES implantation.10, 11 Actually, additional cilostazol to
dual antiplatelet therapy showed reduced restenosis and late loss in patients with long
coronary lesion and diabetes with multivessel coronary artery disease and it also showed
beneficial effect on stent thrombosis after DES implantation.12-14 Although most studies
showed no difference in bleeding according to additional cilostazol to dual antiplatelet
therapy, the rate of early cessation of cilostazol due to adverse effect including headache,
palpitation, skin rash and hepatic dysfunction was about 15%.12-14 Because of relatively
higher side effect rate and no definitive duration of addition cilostazol use, we expect
that cilostazol with short duration can be easily accepted to patient. Although almost
studies about cilostazol after stent implantation used a 6- month duration of cilostazol,
one study showed that use of cilostazol for 3 months after percutaneous transluminal
coronary balloon angioplasty reduced restenosis and revascularization, as compared with use
of aspirin.15 So, we expect a 3-month use of additional cilostazol to dual antiplatelet
therapy can reduce the adverse outcome and ST after stent implantation without increasing
early cessation of cilostazol.
The BioMatrixTM stent system (Biosensors Interventional Technologies Pte., Ltd, Singapore)
consist of a stainless steel, quadrature-link design, balloon expandable S-StentTM, and a
polylactic acid (PLA) polymer and BiolimusA9® coating mounted on a low-profile delivery
catheter.16, 17 It is expected that abluminal biodegradable coating of BioMatrixTM stent can
lead to more targeted drug release, reduced systemic exposure and early BMS-like endothelial
coverage.18 The first-in-man, randomized controlled SEALTH I trial demonstrate higher
efficacy of BioMatrixTM stent by showing lower late lumen loss and in-stent restenosis as
compared with BMS, S-stent at 6-month follow-up.19 In LEADERS trial, BioMatrixTM stent
showed similar efficacy and safety as compared with sirolimus-eluting stent in patients with
chronic stable coronary artery disease and acute coronary syndromes.20 But significantly
lower uncovered and malapposed struts was detected by optical coherence tomography study.21
This means more complete coverage of struts and we can expect lower late ST after
BioMatrixTM stent implantation.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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