Myocardial Infarction Clinical Trial
Official title:
Tight Glycemic Control Increases Cardiac Stem Cells and Reduces Heart Remodeling During Acute Myocardial Infarction in Hyperglycemic Patients
Objectives. The investigators analysed the effects of tight glycemic control in regenerative
potential of the myocardium during acute myocardial infarction (AMI).
Background. A strict glycemic control after AMI improves the cardiac outcome. The role of
tight glycemic control in regenerative potential of the myocardium during acute myocardial
ischemia are still largely unknown.
Methods. Sixty-five patients with first AMI undergoing coronary bypass surgery were studied:
25 normoglycemic patients served as control group; hyperglycemic patients (glucose >140
mg/dl) were randomized to intensive glycemic control (IGC, n=20; glucose goal 80-140 mg/dl)
or conventional glycemic control (CGC, n=20; glucose goal180-200 mg/dl) for almost 3 days
before surgery, using insulin infusion followed by subcutaneous insulin treatment.
Echocardiographic parameters were investigated at admission and after treatment period.
During surgery, oxidative stress (nitrotyrosine, O2- production), apoptosis (Caspase-3) and
cardiac stem cells (CSCs) (c-kit, MDR1 and Sca-1 positive cells) were analysed in biopsy
specimens taken from the peri-infarcted area.
The study design was structured on the basis of protocol Yale . Upon emergency wards
admission, hyperglycemic patients were randomly assigned to IGC or CGC. In patients with
STEMI the insulin infusion was started after thrombolysis. In the CGC group, continuous
insulin infusion of 50 IU Actrapid HM (Novo Nordisk) in 50 ml NaCl (0.9% using a Perfusor-FM
pump) was started only when blood glucose levels exceeded 200 mg/dl and adjusted to keep
blood glucose between 180 and 200 mg/dl. When blood glucose fell <180 mg/dl, insulin
infusion was slowed down and eventually stopped. In the IGC group, insulin infusion was
started when blood glucose levels exceeded 140 mg/dl and adjusted to maintain glycemia at
80-140 mg/dl. During insulin infusion, oral feeding was stopped and parenteral nutrition
(13±5 Kcal/kg-1/day-1) was started. After the start of insulin infusion protocol a glycemic
control was provided every hour in order to obtain three consecutive values that were within
the goal range. Capillary glucose levels were measured by fingerstick testing. Additionally,
plasma glucose levels were checked every two hours in both CGC and IGT patients throughout
the study period. Both measurements were no statistically different . The infusion lasted
until stable glycemic goal (ICG group: 80-140 mg/dl; CGC group: 180-200 mg/dl) at least for
24 h. After glycemic goal were maintained for 24 h, a parenteral nutrition was stopped and
feeding was started according to European guidelines (10). Subcutaneous insulin was
initiated at the cessation of the infusion. Insulin was given as short-acting insulin before
meals and intermediate long-acting insulin in the evening, in both group. In IGC group, the
treatment goal was a fasting blood glucose level of 90-140 mg/dl and a non-fasting (two
hours after meal) level of <180 mg/dl (4). In CGC group, the treatment goal was fasting
blood glucose and postprandial levels of <200 mg/dl. With regard to the full medical
therapy, the protocol stated that the use of concomitant treatment should be as uniform as
possible and according to evidence-based international guidelines for AMI.
Echocardiographic assessment. Patients enrolled in the study underwent two-dimensional
echocardiography at admission before starting full medical therapy as well as after achieved
glycemic control goal for almost 3 days, before surgery. The study was performed using a
standardized protocol and phased-array echocardiographs with M-mode, two-dimensional, and
pulsed, continuous-wave, and color flow Doppler capabilities. The ejection fraction was
calculated from area measurements using the area-length method applied to the average apical
area. The left ventricular internal dimension and interventricular septal were measured at
the end diastole and end systole, and the wall motion score index was calculated according
to American Society of Echocardiography recommendations. Isovolumetric relaxation time (IRT)
was the time interval from cessation of left ventricular outflow to onset of mitral inflow,
the ejection time (ET) was the time interval between the onset and the cessation of left
ventricular outflow, and the mitral early diastolic flow deceleration time was the time
interval between the peak early diastolic flow velocity and the end of the early diastolic
flow. The total systolic time interval was measured from the cessation of one mitral flow to
the beginning of the following mitral inflow. Isovolumetric contracting time (ICT) was
calculated by subtracting ET and IRT from the total systolic time interval. The ratio of
velocity time intervals (vti) of mitral early (E) and late (A) diastolic flows (Evti/Avti)
was calculated. The myocardial performance index (MPI) was calculated as (IRT+ICT)/ET.
Biopsy of myocardium. All patients were undergone to CABG after maintained glucose goal for
almost 3 days. After induction of anaesthesia and median sternotomy, the heart of each
patient was examined, and 3-mm partial-thickness biopsy specimens were taken from the
peri-infarcted area. The infarcted zone was identified as a yellow area surrounded by a
purple band of granulation tissue or as gray area with fine yellow lines at its periphery.
The peri-infarct zone was identified as a zone immediately adjacent the zone with the
anatomical characteristics of myocardial infarct. Moreover, the transesophageal
echocardiogram (TEE) was performer to evaluate peri-infarct zone All biopsies were performed
before CABG, during ventilation with a fraction of inspired oxygen of 40% and peripheral
oxygen saturations of >95%.
Analysis of specimens. Half of each biopsy specimen was fixed in formalin, sectioned to a
thickness of 5 µm, mounted on slides, and stained with hematoxylin and eosin. The mounted
specimens were then examined for evidence of ischemia or kept for immunohistechemistry. The
other half of the specimen was frozen in liquid nitrogen for Western Blotting analysis.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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