Myocardial Infarction Clinical Trial
Official title:
Comparison of Titanium-Nitride-Oxide Coated Bio-Active-Stent (Optimax™) to the Drug (Everolimus) -Eluting Stent (Synergy™) in Acute Coronary Syndrome
The purpose of the prospective, randomized and a multicenter trial is to compare clinical
outcome in patients presenting with ACS, treated with PCI using Optimax-BAS versus
Synergy-EES.
Second objective is to explore whether the Optimax-BAS use is superior compared with
Synergy-EES use with respect of hard end points (cardiac death, MI and major bleeding).
Coronary artery disease (CAD) is the most frequent cause of death, accounting for
approximately 13% of all deaths. In western countries, the incidence of ST-segment elevation
myocardial infarction (STEMI) is around 77/100 000/year, whereas in patients with
non-ST-segment elevation acute coronary syndrome (NSTE-ACS), the incidence is 132/100
000/year. Thus, the incidence of STEMI is decreasing, while there is a concomitant increase
in the incidence of NSTE-ACS. NSTE-ACS and STEMI are usually considered to be different
entities, but recent reports suggested that the prognosis of either subgroup of MI is
similar despite different management strategies. In STEMI, primary percutaneous coronary
intervention (PCI) is the recommended reperfusion therapy over fibrinolysis if performed by
an experienced team within 2 hours of first medical contact. Treatment of patients with
NSTE-ACS is based on their risk of acute thrombotic complications. A clear benefit from
early angiography (<48 h) and PCI has been reported in the high-risk patients. However,
deferral of interventions does not improve outcome. In addition, routine stenting is
recommended on the basis of the predictability of the results and its safety. Consensus has
emerged that early PCI use results in favourable outcomes, especially in high-risk patients.
The ESC guidelines for NSTE-ACS were updated in 20113 and for STEMI in 2012. Currently, PCI
is the preferred reperfusion strategy in patients with both acute STEMI and NSTE-ACS.
Drug-eluting stents (DES) have been shown to reduce in-stent restenosis after PCI compared
to bare metal stents (BMS). Over the previous decade, the appearance of first-generation
drug-eluting stents (Taxus™, Cypher™) in scene has revolutionized the practice of coronary
intervention, resulting in a reduction of restenosis rates by one-half to two-thirds at 5
years follow-up, amounting to roughly 10-15% need for target vessel revascularization
following DES at long-term. However, early randomized first-generation-DES trials excluded
patients with acute myocardial infarction (MI), even though invasive approach is currently
the preferred method for treatment of acute MI. Later randomized trials and meta-analyses of
the clinical trials on the use of DES for treatment of acute STEMI demonstrated that the use
of DES is safe and improves clinical outcomes mainly by decreasing the risk of
re-intervention compared with BMS. However, accumulating evidence from meta-analyses and
registries has questioned the long-term safety of first-generation DES, raising concerns
about a higher risk of late - and very late - stent thrombosis (ST), a potentially
life-threatening complication.
A further step forward was taken with the design of second-generation DES. In SPIRIT I-III
trials, everolimus-eluting stent (EES) showed promising mid-term clinical outcome in
selected patient groups resulting in FDA approval. Newer, second generation DES are now
available in every day practice in interventional cardiology. In this context, Xience-V™-EES
significantly reduced late lumen loss, as assessed by angiography, as compared with the
paclitaxel-eluting stents (Taxus), with non-inferior rates of a composite outcome of safety
and efficacy. Subsequent randomized trials demonstrated that, as compared with
first-generation DES, Xience-V-EES was able to reduce both the restenosis and ST rates in
overall elective patient population. In Examination trial, Xience-V-EES showed reduced rates
of repeat revascularization and ST in STEMI patients when compared with traditional BMS. On
the other hand, novel Promus-Element™-EES has showed to be non-inferior when compared with
Xience-V-EES in recent all comers-trial. The Promus-Element stent uses the identical drug
coating formulation and drug dose density as the Xience-V- stent.
Although, DES delivering antiproliferative drugs from adurable polymer have significantly
reduced restenosis compared with BMS, with no apparent increase in the risk of adverse
events, durable polymers have been associated with a hypersensitivity reaction, delayed
healing, and incomplete endothelialization that may contribute to an increased risk of late
(30 days to 1 year) and very late (beyond 1 year) stent thrombosis compared with BMS. A
number of stent technologies are being developed in an attempt to modify the proposed
mediators of late thrombotic events including bioabsorbable polymers, nonpolymeric stent
surfaces, and bioabsorbable stents. Synergy™-EES is a novel Promus-Element stent platform
that deliveres everolimus from an ultrathin bioabsorbable polymer applied to the abluminal
surface. In the randomized EVOLVE trial, the SYNERGY stent was noninferior to the PROMUS
Element stent for the primary angiographic endpoint of in-stent late loss at 6 months.
Clinical event rates were low and comparable, with no stent thrombosis observed. These
results support the safety and efficacy of the abluminal bioabsorbable polymer SYNERGY EES
for the treatment of patients with de novo coronary artery lesions.
The safety of titanium-nitride-oxide-coated bioactive stents (Titan-2™-BAS) has been
established in several reports from real-life unselected populations. Interestingly,
prospective studies demonstrated an even 'better' outcome with Titan-2-BAS as compared with
paclitaxel-eluting stents (Taxus) in high-risk patients with complex coronary lesions, and
in patients presenting with acute myocardial infarction (MI). The recent BASE-ACS trial
demonstrated that in patients undergoing early PCI for acute coronary syndrome (ACS), the
insertion of Titan-2-BAS was non-inferior to Xience-V-EES concerning the occurrence of the
primary composite endpoint of MACE at 12 months follow-up. The relative risk ratio of MACE
for Titan-2-BAS was 1.07 (a 0.6-percentage-point absolute risk difference) as compared with
Xience-V-EES, a difference that met the chief aim of the trial for non-inferiority of
Titan-2-BAS in reducing MACE in this patient category. Moreover, albeit not adequately
powered to address the individual components of safety and efficacy, non-fatal MI occurred
significantly less frequently and ARC-definite ST trended to be lower in the Titan-2-BAS
group as compared with the Xience-V-EES group. On the other hand, stent coating with
compounds like titanium-nitride-oxide seem to decrease acute surface thrombogenicity, and
reduce in-stent restenosis when compared with conventional stainless steel stents. Optimax™
stent is a novel, next generation BAS, in which a thicker layer of titanium-nitride-oxide
coating is inserted over the stent struts. The rationale of this is to obtain more efficient
and rapid vascular healing at the site of the stent implantation.
After the initial enthusiasm for DES based on their impressive reduction in restenosis,
there was increasing concern about an increased risk for late ST. Consequently, the
recommendation for the duration of dual antiplatelet therapy with aspirin and clopidogrel
(DAPT) was incrementally extended from initially 3 months for Cypher™-DES and 6 months for
Taxus™-DES to recently at least 12 months for all DES. Not commonly, cardiologists recommend
indefinite DAPT if the patient has no bleeding complications during the first 12 months. The
need for long-term DAPT is costly and remains the Achilles' heel of DES; namely increase
risk of bleeding complication. Newer generation of stents have shown impressively low ST
rates, and therefore the excessive bleeding risk of DAPT is being reconsidered. Current
guidelines recommend that oral thienopyridine (clopidogrel, prasugrel or ticagrelol) must be
continued for up to 12 months after STEMI, with a strict minimum of 1 month for patient
receiving BMS and 6 months for patients receiving DES.
Because early discontinuation of DAPT is recognized as the most potent predictor of DES
thrombosis, discussion with the patient regarding the need for and duration of DAPT, and the
ability to comply with and tolerate DAPT, is mandatory before DES implantation. When the
patient is unable to tolerate or comply with DAPT, as well as when surgery is anticipated
within 12 months of DES implantation or when the individual bleeding risk is high, BMS
implantation should be preferred. In the attempt to increase biocompatibility of BMS,
therefore reducing the risk of ST as well as of restenosis without use of polymer-eluted
drugs, various coatings have been used. Among them, diamond-like carbon-coated stent and
above-mentioned titanium nitric oxide-coated stent have shown promising results making
therefore a point for DAPT duration shorter than the 3 months commonly recommended for BMS.
The purpose of the prospective, randomized and a multicenter trial is to compare clinical
outcome in patients presenting with ACS, treated with PCI using Optimax-BAS versus
Synergy-EES. Second objective is to explore whether the Optimax-BAS use is superior compared
with Synergy-EES use with respect of hard end points (cardiac death, MI and major bleeding).
Long-term (12 months) follow-up of patients presenting with ACS (both STEMI and NSTE-ACS)
receiving either Optimax-BAS or Synergy-EES will result in comparable clinical outcome
(non-inferiority; MACE including cardiac death, MI and repeat revascularization). Secondly,
the strategy of Optimax-BAS use is superior to Synergy-EES use during the 18 months of
follow-up in hard end points (superiority; cardiac death, MI and major bleeding).
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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