Coronary Artery Disease Clinical Trial
Official title:
Matrix Metalloproteinases Expression in the Neointimal Hyperplasia Induced by Drug Eluting Stent (DES) Implantation
If intimal growth is such that the initial lumen is narrowed significantly, distal blood flow
is restricted and chronic tissue ischemia results. This occurs in native coronary arteries
and during restenosis after coronary angioplasty or failure of some coronary vein grafts.
Stent implantation has become the principal revascularization technique for coronary artery
disease. But, in-stent restenosis (ISR) by neointimal hyperplasia persists as a significant
limitation of this procedure in the era of drug eluting stent (DES). Coronary intervention
might induce an inflammatory response by arterial wall damage, release of inflammatory and
chemoattractant factors resulting in leukocyte and platelet activation. Then, Migration and
proliferation of neointimal smooth muscle cells together with the deposition of extracellular
matrix might lead to the development of ISR.
It is known that matrix metalloproteinases (MMPs) play a key role in the pathogenesis of
restenosis by controlling extracellular matrix degradation and the release of
matrix-degrading MMPs, including MMP -2 and MMP-9, which facilitate intimal remodeling after
angioplasty. Previous studies showed that increased levels of MMPs in coronary arteries
undergoing percutaneous intervention may be associated with vascular remodeling and
restenosis by promoting migration of vascular smooth muscle cells. Recently, Gregory et al.
demonstrated that elevated serum activities of MMP-2 and -9 are associated with dramatically
increased restenosis rates after PCI with implantation of DES.
In patients with DESs, determination of MMP levels might be useful for identification of
patients who are at high risk for ISR. However, not much is known about the relationship
between MMPs and neointimal hyperplasia in patients with DES. In this study, the serum
activity of MMP-2 and 9 were investigated in patients who had undergone follow-up coronary
angiography with intravascular ultrasound (IVUS), which performed at 9 months post-DES
implantation. Our aim was to evaluate if individual or combined levels of MMPs were
associated with increased neointimal hyperplasia volume, that is, to evaluate the
relationship, correlation between the levels of MMPs and neointimal hyperplasia volume.
Materials and methods Subjects (patients) Patients derived from a population of patients
referred to 12 months follow-up coronary angiography for ischemic heart disease who are
enable to be performed IVUS will be enrolled in the present trial, between Dec 2017 and Dec
2018. The study was an all comers design involving consecutive enrollment of patients with
stable angina or acute coronary syndrome who had at least 1 coronary lesion (defined as a
stenosis of >50%) suitable for stent implantation 9 months before. The follow-up coronary
angiography was performed according to standard techniques by experienced interventionalists
only. In-stent restenosis was defined as a diameter stenosis ≥50% of the vessel reference
diameter by visual assessment at the site of the lesion treated with the stent observed in ≥1
multiple projections. The single most severe view was used to categorize the pattern of
restenosis as proposed by Mehran et al for classification of in-stent restenotic lesions.
Detailed demographic details including anthropometric measurements, cardiovascular risk
factors and medication use were recorded for the participants.
Angiographic analysis (QCA-analysis) The off-line quantitative coronary angiographic analysis
was performed with an automated edge-detection system (QCA-CMS Version 6.0, Medis, Medical
Imaging Systems, Leiden, the Netherlands). The contrast-filled, non-tapered catheter tip was
used for calibration. The reference diameter was measured by interpolation. Minimal lumen
diameter (before and after PCI) and diameter stenosis (before and after PCI) were measured
within the stent and within the 5-mm proximal and distal edges of the stent. Furthermore, we
measured vessel size, lesion length, and length of stented segment. All analyses were
performed by the same investigator that was blinded to all laboratory results.
IVUS imaging and analysis IVUS imaging was performed after intracoronary administration of
0.2 mg nitroglycerin, using a motorized transducer pullback (0.5 mm/s) and a commercial
scanner (Boston Scientific/SCIMED, Minneapolis, MN) consisting of a rotating 40-MHz
transducer within a 3.2 Fr imaging sheath. The decision to perform IVUS was at the operator's
discretion. All IVUS data were assessed off-line by experienced professionals unaware of the
allocated stent type or clinical information. Using computerized planimetry (EchoPlaque 2.7,
Indec Systems, Mountain View, CA), stent and reference segments were assessed every 1 mm.
In-stent measurements were obtained every 1 mm and included EEM, stent, intra-stent lumen,
peristent plaque+media (EEM minus stent), and IH (stent minus intra-stent lumen) areas and
volumes. Percent IH was defined as IH divided by stent. All volumes were calculated using the
Simpson rule and then normalized by stent length (normalized volume).
Blood samples Blood samples were taken under fasting conditions directly before follow-up
angiography. Arterial blood was drawn from the coronary arteries into serum separator tubes
and samples serums were allowed to clot for 30 min before centrifugation at 1,000 g for 10
minutes and stored at -70°C until use.
Laboratory measurement Endogenous MMP-2 and MMP-9 were measured in serum using a standardized
enzyme-linked immunosorbent assay (ELISA; R&D systems). This system measures the endogenous
activity of the specific MMPs.
Sample size estimations:
Sample size calculation was based on the null hypothesis that MMP-2 and/or -9 activity showed
no correlation with neointimal hyperplasia volume. Using the Lachin formula, sample size
calculations were performed to show the expected correlation coefficient (r) more than 0.40
between both group, two-sided alpha 0.05 and 80% statistical power. Finally, 47 patients were
calculated.
Statistical analysis :
Continuous variables are expressed as mean±SD. Categorical variables are summarized as counts
and percentages and were compared by the chi-square or by Fisher exact test. Serum levels of
MMPs were compared by Student t test or by Mann-Whitney U test. Pearson's correlation was
used to correlate MMP levels with neointimal hyperplasia volume. Multiple logistic regression
was used to evaluate the interaction between variables and MMPs in correlation with
neointimal hyperplasia volume and in-stent restenosis. A stepwise entry procedure was applied
to identify significant or suggestive (p < 0.1) confounders of either patient group or MMP
level. Odds ratios were expressed with 95% confidence intervals. A p-value of less than 0.05
was considered statistically significant. All statistical analyses were performed with the
statistical software package SPSS version 12.0 (SPSS, Inc., Chicago, Illinois). The authors
had full access to the data and take responsibility for its integrity. All authors have read
and agree to the manuscript as written.
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