PreDiabetes Clinical Trial
Official title:
Early Insurgence of Coronary Artery Dysfunction in Prediabetic Patients With Monovessel Non Obstructive Coronary Stenosis May Condition Major Adverse Cardiac Events at 24 Months of Follow up.
Objectives: Prediabetes may condition an early endothelium dysfunction, and the development
of non obstructive coronary stenosis (NOCS). Indeed, authors' study aim was to investigate
the endothelial dysfunction, and Major Adverse Cardiac Events (MACE) in prediabetics vs.
normo glycemic subjects.
Materials and Methods: 308 patients with evidence of left anterior descending (LAD) coronary
NOCS (<50% luminal stenosis), will entere prospectively into a database. After assessment of
endothelial coronary dysfunction by acetilcoline infusion, 86 propensity score matched (PSM)
prediabetics and 86 PSM normoglycemics will be consecutive enrolled in the study.
INTRODUCTION Prediabetes is a heterogeneous pathological condition diagnosed by the evidence
of fasting plasma glucose of ≥5.6 mmol/L but <7.0 mmol/L (100-125 mg/dL; impaired fasting
glucose [IFG]), a 2-hour glucose of ≥7.8 mmol/L but <11.1 mmol/L during a 75 g oral glucose
tolerance test (GTT) (140-199 mg/dL; impaired glucose tolerance [IGT]), or a plasma
hemoglobin (Hb) A1c of ≥5.7% but <6.5%. Epidemiological data confirm prediabetes as an
increasing disease with a prevalence in the adults population of United States >38%. However,
prediabetics present an increased risk to develop diabetes, and cardiovascular disease, then
associated to worse prognosis. The common pathogenic mechanism linking prediabetes to
cardiovascular disease is represented by the early insurgence of coronary artery dysfunction.
It looks intuitive to speculate that, in prediabetics the hyperglycemia may early condition
the coronary artery dysfunction, by a hyper activation of inflammatory and oxidative
processes at level of endothelium covering the intima surface of coronary vessels. To date,
the coronary artery dysfunction in prediabetics is well characterized by the endothelium
dysfunction hyperglycemia induced. In fact, the endothelial dysfunction in prediabetics is
characterized by a loss of vasodilation in response to sheer stress induced by release of an
occlusive cuff (flow-mediated dilation) or pharmacological stimuli causing nitric oxide (NO)
synthase activation such as acetylcholine. Moreover, in prediabetics the hyperglycemia may
induce endothelial dysfunction evident in the early pathogenesis of atherosclerosis, such as
it may be for patients with non obstructive coronary stenosis (NOCS). However, this early
insurgence of coronary artery dysfunction in prediabetics may secondary lead to worse
prognosis by an increasing number of Major Adverse Cardiac Events (MACE). On the other hand,
actually a great discordance in literature exists about the correlation between NOCS in
prediabetics and the associated clinical outcomes. In fact, authors recently reported that,
asymptomatic prediabetics enrolled for early detection of coronary artery disease, and
assessed by coronary computed tomography angiography, were not associated with an increased
risk of subclinical coronary atherosclerosis. On the contrary, because the hyperglycemia may
induce in prediabetics a higher expression of inflammatory and oxidative pathways, these
multiple altered molecular pathways may consequently condition an endothelial dysfunction.
However, limited data are actually evident about the impact of the glycemic status on the
risk of subclinical coronary atherosclerosis in NOCS prediabetics as compared to
normoglycemics patients. Therefore, author study hypothesis will be as first that, NOCS
prediabetics vs. normoglycemics may present a higher level of inflammatory and oxidative
markers. As second, these altered pathways may lead to an early endothelial dysfunction also
in presence of monovessel NOCS. Finally, this pathogenic status may subsequently condition
the worse prognosis in prediabetics vs. normoglycemics. Indeed, authors' study aim will be to
investigate the endothelial dysfunction and the related MACE at 24 months of follow up in
prediabetics vs. normo glycemic subjects with diagnosis of monovessel NOCS diagnosed by
coronary angiography and infusion of acetylcholine.
METHODS Authors will screen at the Department of Cardiology, Hospital Cardarelli, Naples,
Italy, and at Department of Cardiovascular Diseases, John Paul II Research and Care
Foundation, Campobasso, Italy, patients having stable angina pectoris, with a positive stress
test for myocardial ischemia, and no change in the frequency, duration, or intensity of
clinical symptoms within 4 weeks, and referred for coronary artery angiography. However,
these patients will receive a coronary angiography, and 267 patients with evidence of left
anterior descending (LAD) coronary NOCS (<50% luminal stenosis), and no physiologically
significant fractional flow reserve (FFR >0.80), will enter prospectively into a database.
After the diagnosis of monovessel LAD-NOCS, authors will evaluate in these patients the
endothelial coronary vascular function at baseline and after each infusion of acetylcholine.
However these patients will be divided in subjects with normal endothelial function vs.
subjects with endothelial dysfunction. Patients with no coronary disease detected by coronary
angiography, presence of both obstructive and non-obstructive stenosis, left ventricular
ejection fraction <50%, previous myocardial infarction, previous percutaneous coronary
intervention and/or coronary bypass grafting, Tako-tsubo cardiomyopathy, myocarditis,
impaired renal function or stroke will be excluded. To date 86 propensity score matched (PSM)
prediabetics and 86 PSM normoglycemics will be consecutive enrolled in the study. Prediabetes
will be defined by IFG, and IGT with an HbA1c value in the range of 6.4% (1). The analyses of
all angiographic data will be performed by the interventional cardiologists, blinded to
patient categorization, who will review selected cases with NOCS. After an overnight fast,
plasma glucose and glycated haemoglobin (HbA1c) levels will be measured using enzymatic
assays. At the Department of Medical, Surgical, Neurological, Aging and Metabolic Sciences,
University of Campania "Luigi Vanvitelli", Italy, authors will practice for all patients
quarterly clinical evaluation, routine analyses, plasma glucose and glycated haemoglobin
(HbA1c) levels measurements, and cardiovascular evaluation as outpatients for 24 months after
the coronarography. The study endpoints will be the assessment of oxidative stress,
inflammatory tone, and MACE at 24 months follow up. The study will be conducted in accordance
with the Declaration of Helsinki. The ethics committees of all participating institutions
will approve the protocol. All patients will be informed about the study nature, and will
give their written informed and signed consent to participate in the study.
Coronary angiography and endothelial function assessment. Experienced physician will perform
routine diagnostic coronary angiography (General Electric, Discovery IGS 740) by using
standard clinical protocols. Coronary angiography will be performed to discriminate and
select patients with monovessel LAD and NOCS, as a stenosis <50% of vessel lumen, and with a
fractionated flow reserve (FFr) >0.80 (8, 9). After the diagnosis of monovessel LAD-NOCS, in
these patients authors will evaluate the endothelial coronary vascular function at baseline
and after each infusion of acetylcholine. However, coronary artery diameter will be measured
at baseline and after the infusion of acetylcholine by an independent investigator blinded to
Doppler velocity data, and using a previously described computer-based image analysis system.
The infusion protocol of acetylcholine will be terminated when the highest molar
concentration of acetylcholine (1,024 mol/l) will be reached (8). Endothelial-dependent
coronary blood flow (CBF) will be then calculated by the formula: CBF ¼ p(average peak
velocity)(coronary artery diameter/2)2 (8). The inter observer and intra observer
reproducibility of the CBF calculation will be about 5%. The maximal percent increase in CBF
in response to acetylcholine compared with the CBF at baseline will be then calculated, and
all measurements will be performed in the segment 5 mm distal to the tip of the Doppler
guidewire. Moreover, after each acetylcholine infusion, the coronary artery diameter will be
measured in the same segment of the vessel. The maximal effect of acetylcholine will be
expressed as percent change in coronary artery diameter using quantitative coronary
angiography (QCA, Medis Corporation, Leiden, the Netherlands) (representing epicardial
endothelial function) and percent change in the CBF (representing microvascular endothelial
function) relative to baseline (8).
Biochemical analyses. Venous blood samples, obtained from all participants in the study at
baseline and during follow up phases, will be centrifuged at 3,000 rotations/min, and
serum/plasma samples will be collected and stored at -80°C until assayed. Serum levels of
high-sensitivity C-reactive protein (hs-CRP), Interleukine 1 (IL1) and 6 (IL 6), and TNF
alpha will be measured as an inflammatory biomarker. In addition authors will measure the
number of white blood cells (WBC), granulocytes, platelets, and blood values of Nitrotirosine
as markers of oxidative stress on admission before coronary angiography and at follow up.
Statystical analysis SPSS version 23.0 (IBM statistics) will be used for all statistical
analyses. Categorical variables will be presented as frequencies (percentages), and
continuous variables as mean ± standard deviation. For comparisons between prediabetics and
normoglycemics (controls) with normal epicardial endothelial function and those with
epicardial endothelial dysfunction, propensity score matching will be developed from the
predicted probabilities of a multivariable logistic regression model predicting mortality and
events according to age, sex, hypertension, dyslipidaemia, smoking history, family history,
baseline therapies, metabolic characteristics and coronary lesions. Overall survival and
event-free survival will bee presented using Kaplan-Meier survival curves, and compared using
the log-rank test. Univariable Cox models will be then used to compare event risks. The
resulting hazard ratios (HRs) and 95% confidence intervals (CIs) will be reported. Two-tailed
P values <.05 will be taken to indicate statistical significance.
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