In-stent Coronary Artery Restenosis Clinical Trial
Official title:
The Rate of In-stent Restenosis Within Bare Metal Stents as Compared to Drug Eluting Stents in Patients With Patent Previously Deployed Bare Metal Stent
Intra-coronary stents deployment reduces the rate of angiographic restenosis as compared to
Balloon angioplasty. in-stent restenosis, usually defined as ≥50 percent diameter stenosis
within previously deployed stent, is most often becoming clinically evident within the first
6 to 12 months after the stent was deployed. Several risk factors are predictors for the
development of in-stent restenosis. These can be generally calcified as either clinical,
angiographic or procedural related factors. However it is difficult to estimate to what
extent In stent re-stenosis is influenced by these various components.
Drug eluting stent, as compared to bare metal stents, markedly reduced the incidence of
angiographic in-stent restenosis. However this benefit must be weighed against a suggested
increased risk of late and very late stent thrombosis, a catastrophic event often leading to
myocardial infarction and death. Often in patients with existing risk factors for in-stent
restenosis, drug eluting stents will be deployed even in cases where patency of a previously
deployed bare metal stent have been demonstrated.
Therefore the researchers sought to investigate whether in patients with previously deployed
bare metal stent and no evidence of in-stent re-stenosis there will be a significant
difference in the rates of in-stent between drug eluting stents and bare metal stents
deployed within de-novo stenotic lesions.
Intra-coronary stents deployment reduces the rate of angiographic restenosis and
clinically-driven repeat target lesion revascularization (TLR) compared to percutaneous
transluminal coronary angioplasty (PTCA) alone. Angiographic binary in-stent restenosis
(ISR) is usually defined as ≥50 percent diameter stenosis within previously deployed
intra-coronary stent. in-stent restenosis is most often becoming clinically evident within
the first 6 to 12 months after the stent was deployed. Although there is an increase in
neointimal tissue with subsequent reduction in the minimal luminal diameter (MLD) during the
first six months after stent deployment, there may be no further reduction in luminal
diameter, or even regression, at one year and a further increase in diameter at later time
points. Hence, after one year recurrent ischemia is more likely to be due to new or
progressive disease at another site rather than due to ISR.
Several risk factors are predictors for the development of ISR. These can be generally
calcified as clinical related factors, angiographic related factors and procedural related
factors:
clinical related factors- higher rates of ISR are seen in female patients, hypertensive or
diabetic patients , patients suffering from multivessel disease or renal dysfunction and
stenting performed in the setting of acute coronary syndrome (ACS).
angiographic related factors -higher rates of ISR are seen in some lesion types, such as
smaller reference artery diameter, Smaller pretreatment MLD, longer lesion length, complex
lesions, ostial lesions, ISR in a companion lesion or stenting of multiple lesions and
bifurcation lesions and treatment of in-stent restenosis.
procedural related factors- lower rates of ISR are seen after high-pressure post-dilation
while higher rates of ISR are seen with stent under-expansion, placement of multiple stents,
longer stent length (>35 mm) and stented segment, Excessive stent length in relation to the
lesion length, Overlapping stents, smaller post-treatment MLD (MLD after stenting <3 mm),
post-procedural percent diameter residual stenosis, the use of coil stent and a shorter time
interval, between prior angioplasty and current stent implantation. The configuration of the
stent may also affect ISR rates. Stents with thinner strut thickness are less likely to
demonstrate ISR. Contact allergy to metal compounds, particularly nickel, released from
stainless steel stents have also been suggested to contribute to the development of ISR.
Drug eluting stents (DES) demonstrate the ability to suppress in-stent neointimal
hyperplasia, a sustained effect that lasts even after two years from the time the DES was
deployed. Multiple randomized trials, large registries and meta-analyses have demonstrated
that drug DES, as compared to bare metal stents (BMS), markedly reduced the incidence of
angiographic in-stent restenosis (ISR), rates of late lumen loss as well as the rates of
target lesion revascularization (TLR).Likely scenarios, both "on-label" and "off label" use,
for the preference of DES over BMS, owing to improved efficacy, include stenosis of the Left
main coronary artery, left main equivalent disease, and stenosis of the ostial or proximal
left anterior descending artery, large amount of viable myocardium at risk, need for
multi-vessel revascularization, long lesions, stenosis of small diameter vessels, complex or
bifurcation lesions, restenotic lesions, saphenous vein graft stenosis and chronic total
occlusion (CTO). In most North America centers, DES have been utilized in preference to BMS
whenever feasible.However the benefits of DES on ISR must be weighed against the concerns in
regard to the suggested increased risk of late and very late stent thrombosis, especially if
dual antiplatelet therapy with aspirin and a thienopyridine is prematurely discontinued, a
catastrophic event often leading to myocardial infarction and death.Furthermore, the longer
time period recommended with dual antiplatelet treatment, after deployment of DES as
compared to BMS, poses an increased risk of major bleeding.
There is an increase in the use of DES. In patients suffering from ISR in other arteries or
other segments of the artery, DES will often be deployed in de-novo stenotic lesions.
However, it is difficult to estimate to what extent ISR is influenced by the various
predictors for ISR. in patients with either clinical angiographic or procedural related risk
factors, DES will often be deployed even in cases where patency of a previously deployed BMS
have been demonstrated. Therefore the researchers sought to investigate whether in patients
with previously deployed BMS and no evidence of ISR, so-called "non-restenosers", there will
be a significant difference in the rates of ISR between DES and BMS deployed within de-novo
stenotic lesions.
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Observational Model: Case Control, Time Perspective: Retrospective
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