This is a prospective interventional study to assess the effect of cilostazol compared with aspirin in Korean T2DM patients with atherosclerosis.
Type 2 diabetes has been increased exponentially, arousing serious economic, social and health repercussions. Also, macrovascular complications of diabetes such as myocardial infarct or stroke have been increased. Individuals with diabetes have a greater risk of cardiovascular disease (CVD), approximately two to four times than that of those without diabetes. Currently, the U.S. Food and Drug Administration requires demonstration that new anti-hyperglycemic agents do not increase CV risk. The comprehensive and multifactorial management in type 2 diabetes, which includes control of hypertension, dyslipidemia and obesity, is known to significantly reduce the risk of CVD as shown in Steno-2 study. However, most anti-diabetic agents currently used in clinical practice do not seem to provide enough CV protection. This is a prospective interventional study to assess the effect of cilostazol compared with aspirin in Korean T2DM patients with atherosclerosis. T2DM patients who have coronary artery stenosis by MDCT at least 3 months prior to this investigation will be enrolled. Considering drop out due to adverse events or follow up loss, sufficient patients will be enrolled. Their medical record will be reviewed and relevant clinical and laboratory findings will be collected. Cardiac computed tomography (CT) was introduced in the early 1990s. However, electron-beam CT (EBCT) only provided information on simple coronary artery calcium score (CAC). Recently, MDCT has been introduced, which can evaluate coronary arteries comprehensively. MDCT images can provide measurements of CAC, the degree of stenosis, and the characteristics of plaque including its potential vulnerability. These findings of MDCT have been reported to be in good agreement with intravascular ultrasound. All scans are analyzed independently by two experienced investigators using a 3D workstation, who are blinded to the clinical information (Brilliance; Philips Medical Systems). After independent evaluations are made, a consensus interpretation is arrived at regarding the final MDCT diagnosis. Each lesion is identified using a multiplanar reconstruction technique and maximum intensity projection of the short axis, in two-chamber and four-chamber views. Image quality is evaluated on a per-segment basis and classified. Plaque characteristics on a per-segment basis are analyzed according to the modified American Heart Association classification.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
100
Pletaal as an active drug
Aspirin as an active comparator
Seoul National University Bundang Hospital
Seongnam, Bundang-gu, South Korea
Coronary artery stenosis
Severity of coronary artery stenosis (%)
Time frame: one year
Plaque characteristics
Noncalified plaque
Time frame: one year
Plaque characteristics
Mixed plaque
Time frame: one year
Plaque characteristics
Calcified plaque
Time frame: one year
Multivessel involvement
Multivessel involvement in coronary arteries
Time frame: one year
Main vessel involvement
Left main and/or proximal LAD stenosis
Time frame: one year
Coronary artery calcium (CAC) score
Agatston score for CAC
Time frame: one year
Glucose homeostasis
Changes in HbA1c
Time frame: one year
Glucose homeostasis
Changes in fasting glucose concentration
Time frame: one year
Lipid metabolism
Changes in TG concentration
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Time frame: one year
Lipid metabolism
Changes in HDL-concentration concentration
Time frame: one year