Acute Myocardial Infarction Clinical Trial
Official title:
Intracoronary Injection of Melatonin for Patients With ST-elevation Myocardial Infarction: a Placebo Controlled Randomized Study
In Denmark, 12.000 people a year, is struck by acute myocardial infarction. A third of these
cannot be saved before treatment is possible.
Despite quick and effective reperfusion of the coronary arteries using PCI (Percutaneous
Coronary Intervention) after an acute ST-elevation myocardial infarction, substantial
morbidity and mortality remain. Infarct size is an important determinant of the short-and
long-term outcome after acute myocardial infarction. The most widely used and most effective
proven therapy to limit infarct size is the early reperfusion induced by or PCI.
Although beneficial in terms of myocardial salvage, reperfusion itself may contribute to
additional damage of the myocardium; the damage due to the combined processes is known as
"ischemia-reperfusion injury". The pathogenesis of myocardial ischemia-reperfusion injury is
a multifactorial process involving the interaction of multiple mechanisms. Numerous studies
indicate that there are three pivotal factors in the pathogenesis of ischemia-reperfusion
injury: elevated oxidative damage, depressed energy metabolism, and altered calcium
homeostasis.
Partially reduced species of oxygen, including the superoxide anion radical, hydroxyl
radical, and hydrogen peroxide, are generated intracellularly as by-product of oxygen
metabolism. These reactive oxygen species cause peroxidation af membrane lipids,
denaturation of proteins, and modification of DNA, all of which ultimately can lead to cell
death. In mammals, cell damage induced by partially reduced oxygen species can also initiate
local inflammatory responses, which then lead to further oxidant-mediated tissue injury.
Melatonin is mainly known for its role as an endogenously produced circadian hormone.
For the last twenty years, increasing evidence has proven melatonin to be a very potent
direct and indirect antioxidant.
Recent experimental studies have documented the beneficial effects of melatonin in reducing
tissue damage and limiting cardiac pathophysiology in models of experimental
ischemia-reperfusion.
Primary hypothesis: Melatonin given to patients undergoing PCI can reduce the myocardial
damage sustained by ischemia-reperfusion.
Purpose The purpose of this Ph.D study is to examine the antioxidative effect of melatonin
in relation to ischemia-reperfusion injury.
The investigators wish to examine to which extend melatonin administered to patients
undergoing primary PCI for acute myocardial infarction will reduce the damage of the
myocardium caused by ischemia-reperfusion injury and thereby hopefully improve the clinical
outcome.
Theory and hypotheses Because there is strong evidence that free radicals contribute to
post-ischemic injury, antioxidant enzyme therapy could potentially be extremely effective in
reducing the cellular damage. In reality, however, the usefulness of this therapy is limited
by a number of factors, in particular the ability of the antioxidants to penetrate the cell
membrane and to scavenge free radicals in situ. Fortunately, this limitation can, in part,
be addressed with the use of melatonin, a potent indirect and direct free radical scavenger
that easily diffuses through the cell membrane to exert its antioxidant effects in all
compartments of the cell. Indeed, in contrast to the partial of distribution of other
antioxidants, such as vitamin C or E, the melatonin distributes it readily in all
subcellular compartments owing to its double-solubility in both, aqueous and in lipid
environment. Several recent publications present evidence that the newly discovered
antioxidant melatonin has significant protective actions against the cardiac damage such as
occurs during ischemia-reperfusion injury.
Primary hypothesis: Melatonin given to patients undergoing PCI can reduce the myocardial
damage sustained by ischemia-reperfusion.
Inclusion:
- Adults who are able to give informed consent
- 1 significant coronary occlusion (>2mm) with TIMI 0-1 expected to undergo PCI.
- ECG criteria: The occlusion must be ECG-verified with new ST-elevations ≥ 0.2 mV in
V2-V3 and/or ≥ 0.1 in the other leads or with a new onset left bundle branch block.
- Having onset of symptoms of qualifying AMI and undergo PCI within 6 hours.
- If the patients do not fulfill the ECG inclusion criteria they can still be included if
the primary PCI reveals an acute coronary occlusion (>2mm) with TIMI 0-1.
Exclusion: Patients with prior myocardial infarction, more than one significant occlusion,
prehospital thrombolysis, known history of renal failure, history of autoimmune diseases,
pregnancy, fertile women or breastfeeding, severe concurrent illness with reduced short-term
prognosis, pacemaker, claustrophobia, cardiogenic shock, metals in the body, atrial
fibrillation, BMI ≥ 40.
Intervention: The STEMI patient with 1 significant occlusion undergoing PCI less than 6
hours from onset of symptoms will be randomized to intracoronary injection of either
melatonin or placebo(saline). The melatonin or placebo will be given as a bolus of 10 ml in
relation to PCI, as soon as the occlusion is removed. Immediately after the bolus is given,
a solution of 490 ml of either placebo (saline) or 0,1 mg/ml melatonin (49 mg melatonin)will
be given intravenously over 6 hours (80 ml/hour).
Primary end point: MRI of the heart at day 4 (+/- 1 day) after the PCI procedure to
determine myocardial salvage index.
Secondary end point:
- To determine whether melatonin treatment reduces infarct size as determined by the
concentration of high sensitive TnT or high-sensitive TnI and Creatinin Kinase
Myocardial Band (CK-MB)(area under the curve) in the blood, measured daily for the
first 4 days after AMI.
- the concentration of plasma melatonin after PCI
- the concentration of oxidative markers 24 hours after PCI
Clinical events occurring within the first 90 days after surgery; death, sustained
ventricular arrhythmias, resuscitation from cardiac arrest, cardiogenic shock, heart
failure, major bleedings, stroke, need for revascularization, recurrent ischemia,
re-infarctions and re-hospitalization.
Design: Randomized, double-blind, placebo-controlled interventional study.
Method: Patients who meet the criteria of inclusion will be randomized to intra-coronary
injection plus intravenous infusion of melatonin or placebo. The bolus will be given just
after the opening of the vessel (TIMI ≥ 2) . Hs-Troponin T/I and CK-MB will be measured in a
blood sample taken 1 hour, 6 hours, 24 hours, 48 hours, 72 hours and 96 hours after the PCI
procedure. At day 4 after PCI, the patients will undergo MRI of the heart focusing on
infarct size and area at risk.
Patient number: Statistical power analysis shows that with a type 1 error of 5% and a type 2
error of 20%, mean at 9,63 and the SD with MRI of 0,16, one should be able to detect a
difference in infarct size of 25% between the two groups, when including 2x17 patients in
each group. The investigators are including 2x 20 patients.
Safety: The experiments are considered to be of no risk or discomfort for the patients. Both
the intervention group and the placebo group are operated by current clinical guidelines.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator), Primary Purpose: Treatment
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