ST-segment Elevation Myocardial Infarction Clinical Trial
Official title:
The Effect of Glucocorticoid Therapy on Left Ventricular Remodelling in Acute ST-segment Elevation Myocardial Infarction (RECONSIDER)
Introduction: In the setting of acute ST-segment elevation myocardial infarction (STEMI)
coronary wedge pressure (CWP) emerges as a new marker for the advanced form of pre-procedural
microvascular obstruction (MVO), which is associated with inflammatory interstitial edema.
Through its anti-inflammatory effects, glucocorticoid therapy may prove beneficial in
patients with high CWP.
Aim: To identify the presence of the advanced form of MVO before primary percutaneous
coronary intervention (PPCI) by CWP measurement and to test the benefit of cortisol therapy,
in terms of infarct size and left ventricular remodeling, in patients with raised CWP.
Methods: 50 patients with a first STEMI, candidates for PPCI, with proximal coronary
occlusion, will undergo CWP measurement followed by percutaneous revascularization. Cardiac
MRI will be performed 3-5 days after the procedure. A cutoff for CWP in predicting MVO,
interstitial oedema and intramyocardial haemorrhage will be derived.Based on the above
mentioned cutoff, 180 patients with continuous elevation of the pressure line will be
randomized, by a 1:1 model, either to cortisol therapy or to placebo. Inflammatory parameters
will be determined from peripheral blood samples. Patients will undergo cardiac magnetic
resonance (CMR) imaging 3 to 5 days after revascularization.
Study endpoints: The primary endpoint will be the extent of MVO, interstitial edema and
hemorrhage. Secondary endpoints will include infarct size, myocardial salvage, left
ventricular volumes and ejection fraction. The clinical endpoints of all-cause and
cardiovascular death, myocardial re-infarction, target vessel revascularization, stent
thrombosis and stroke will be recorded at 6 months.
PATIENT POPULATION Consecutive patients with first STEMI, candidates for PPCI (typical
cardiac chest pain, within 12h of symptom onset, with ST segment elevation of more than 1 mm
in at least two contiguous leads) and proximal coronary artery culprit lesion will be
considered for randomization.
Exclusion criteria are cardiogenic shock. previous myocardial infraction, previous PCI and
coronary artery bypass surgery (CABG), left bundle branch block, active bleeding,
administration of thrombolytic agents for the current episode, recent stroke (during last
month), indication for oral anticoagulant therapy, severe or untreated infections and the
impossibility of CWP measurement.
Verbal assent will be obtained, with the agreement of two qualified cardiologists. Full
consent will be obtained after the procedure, in accord with the protocols followed by
several recent studies.
This is a triple-blind clinical study. The physicians performing the procedure, the subjects
and the biostatistician will be blinded to the treatment administered.
The study will take place in a high-volume university hospital center that provides 24-hours
emergency cardiac care in a region with 1.3M inhabitants: "Niculae Stãncioiu" Heart Institute
- Cardiology Department. The hospital is affiliated to "Iuliu Haţieganu" University of
Medicine and Pharmacy, Cluj-Napoca.
STUDY PROTOCOL Patients will receive a standard dual antiplatelet therapy regimen protocol
with ticagrelor (180mg) and aspirin (300 mg) loading before PPCI and will be treated with
intravenous heparin 100UI/kg during the procedure. Coronary catheterization and intervention
will be performed using a 6-F guiding catheter via radial or femoral access.
According to the type of the culprit lesion, three different techniques will be used:
1. Coronary occlusion: the lesion is crossed with a pressure guidewire (Verrata Pressure
Guide Wire, Volcano Corporation) - CWP is recorded if TIMI flow remains 0.
2. Coronary occlusion: the lesion can not be crossed with the pressure guidewire - the
lesion is crossed with a standard coronary guidewire, a dual-lumen microcatheter
(NHancer Rx Dual Lumen Micro Catheter, Interventional Medical Device Solutions) is
positioned distal to the occlusion, backflow is obtained and CWP measurement is
performed, through the micro-catheter only if the occlusion persists. A pressure
guidewire is introduced through the over-the-wire lumen of the micro-catheter and CWP is
again recorded.
3. Coronary stenosis (circulated vessel): the lesion is crossed with a pressure guidewire
and CWP is measured during the inflation of the predilatation balloon or during stent
balloon inflation in case of a direct stenting procedure.
Following CWP measurement, blood samples are collected from a peripheral vein for hsCRP,
IL-6, IL-18 and IL-1Ra determination.
The first 50 patients will not receive study treatment. They will undergo CWP measurement
followed by percutaneous revascularization. Cardiac MRI will be performed 3-5 days after the
procedure. A cutoff for CWP in predicting MVO, interstitial oedema and intramyocardial
haemorrhage will be derived.
Based on the above mentioned cutoff, 188 patients with continuous elevation of the pressure
line will be randomized, by a 1:1 model, either to cortisol therapy or to placebo.
Group A (GA) will be randomized to hydrocortisone during the first 5 days, and Group B (GB)
will be randomized to placebo. Following CWP determination, patients in GA will have an
intravenous injection of 500 mg of hydrocortisone followed by an intravenous infusion of 500
mg of hydrocortisone in 250 ml of 5% sugar solution over eight to ten hours. This treatment
will be repeated daily for the next five days. This protocol was used by Barzilai et al.
which reported a significant mortality reduction with therapy.
PCI will be performed according to standard practice, at the discretion of the operator,
following CWP measurement. Heparin will be given as an initial bolus of 100 U/kg during the
procedure and if necessary, additional boluses will be administered to achieve an activated
clotting time of 300sec.
Appropriate secondary prevention will be performed with statins, angiotensin-converting
enzyme inhibitors, beta-blockers and dual anti platelet therapy for 1 year.
CARDIAC MAGNETIC RESONANCE (CMR) IMAGE AQUISITION AND ANALYSIS Patients will undergo CMR
three to five days after randomization for the evaluation of the primary endpoint (MVO,
interstitial edema and hemorrhage) and selected secondary endpoints (infarct size, left
ventricular ejection fraction and volumes). A standard protocol will be used on a 1.5T
scanner.
In brief, infarct size and MVO will be assessed by late enhancement in short-axis images
covering the left ventricle approximately 15 min after injection of gadolinium chelate. An
inversion-recovery turbo gradient-echo sequence will be used for image acquisition. A
hypo-intense core within the hyper-enhanced infarcted area will be defined as MVO. For
determination of infarct-related myocardial edema/area at risk, short-axis slices covering
the LV using a T2-weighted triple- inversion recovery turbo spin-echo sequence before
contrast administration will be obtained. Assessment of LV function and volumes will be
performed in short-axis slices from base to apex acquired by a standard steady-state free
precession technique.
MVO and infarct size will be expressed as percentage of LV mass, given by the sum of the mass
of MVO and late gadolinium enhancement regions for all slices divided by the overall mass of
the LV myocardial cross-section slices. If present, myocardial salvage index will be
calculated as area at risk minus infarct size divided by area at risk multiplied by100.
STUDY ENDPOINTS The primary endpoint will be the extent of MVO, interstitial edema and
hemorrhage assessed by CMR in the modified intention-to-treat population. The correlation
between CWP, interstitial edema and surrogate parameters of inflammation from peripheral
blood samples will be analyzed. Secondary CMR endpoints will include infarct size, myocardial
salvage, LV volumes and ejection fraction. LV ejection fraction and volumes will be
determined both at discharge and 6 months after the procedure. For enzymatic infarct size
determination, high-sensitivity troponin T after 24 and 48 h will be measured. Clinical
endpoints of all-cause and cardiovascular death, myocardial re-infarction, target vessel
revascularization, stent thrombosis and stroke will be recorded at 6 months.
STATISTICAL ANALYSIS The number of patients that would be needed to detect a difference of
21% between GA and GB for the clinical end-point, with a α of 0.05, a β of 0.20 and a 1:1
ratio was calculated using the formula provided by Whitley and Ball. The necessary number of
patients, under the risk of dropout of 10%, led to a number of 94 patients per arm.
Intention-to-treat analysis will be applied in the analysis of both primary and secondary
end-points. Statistical analyses will be performed using "Statistical" software (StatSoft
v.8, OK, USA). Quantitative variables will be summarized as mean and standard deviation for
normally distributed data and median and interquartile range for abnormally distributed data.
Groups will be compared with the Student-t test for independent samples in case of normally
distributed quantitative variables. Otherwise, the comparison will be performed with the
Mann-Whitney test. Categorical variables will be summarized as frequencies and percentage
with 95% associated confidence intervals. Groups will be compared with the Chi-square or
Fischer exact test, as appropriate. Statistical analysis will be conducted at a significance
level of 5%.
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