View clinical trials related to Acute Myocardial Infarction.
Filter by:The investigators are going to examine 270 patients within 48h of STEMI with primary percutaneuous intervention. The investigators utilise either a double -with a 15- min intervening interval-, or a single ischemic stimulus by brachial cuff inflation of both arms at 200mmHg for 5 min to cause remote conditioning (RIC) or no cuff inflation. Each ischemic stimulus is followed by a vascular function assessment, with a final assessment 25 minutes after the second cuff deflation. All patients utilising a cuff inflation procedure also undergo a sham cuff inflation. The investigators measure: a) the perfusion boundary region (PBR-micrometers) of the sublingual arterial microvessels as a marker of endothelial glycocalyx thickness to assess vascular permeability, b) the carotid-femoral pulse wave velocity (PWV). At baseline (T0) and the last vascular assessment (T3) The researchers also measure microRNA-144,-150,-499 (cardioprotective action), -21, and -208 (remodeling stimuli) expression, nitrate- nitrite (NOx) and malondialdehyde (MDA) plasma levels. Moreover, the investigators are going to perform an echocardiographic study at 1 and 2 years after the recruitment to investigate whether the left ventricular function differs among the 3 study arms (2 RIC protocols and no intervention)
Incidence of ST-segment Elevation Myocardial Infarction (STEMI) is rising and the existing emergency medical aid system for STEMI was not enough for timely perfusion treatment. No existing research with high-quality data focuses on the characteristic of STEMI incidence and regional network construction. Aiming of Guangdong GAMI(reGional network for Acute Myocardial Infarction) project is to establish effective collaborative regional network system for STEMI patients treatment.
This is a national registry study to determine genetics risk factors and serial biomarkers of Acute Coronary Syndrome.
The study aims to investigate whether oral betablocker (BB) therapy is superior to no such treatment following an acute myocardial infarction (AMI).
The aim of the study is to examine whether treatment with extracorporeal life support (ECLS) in addition to revascularization with percutaneous coronary intervention (PCI) or alternatively coronary artery bypass grafting (CABG) and optimal medical treatment is beneficial in comparison to no ECLS in patients with severe infarctrelated cardiogenic shock with respect to 30-day mortality
The EMERALD II study is a multinational, multicenter, and retrospective study. ACS patients who underwent CCTA from 1 months to 3 years prior to the event will be retrospectively identified. Plaques in the non-culprit vessels will be regarded as a primary control group.
The purpose of this study is to evaluate the safety of reducing dual antiplatelet therapy (DAPT) duration to 1 month after implantation of the everolimus-eluting cobalt-chromium stent (CoCr-EES) under the setting of acute coronary syndrome (ACS).
In acute myocardial infarction, early restoration of epicardial and myocardial blood flow is of paramount importance to limit infarction size and create optimum conditions for favourable long-term outcome. Currently, restoration of epicardial blood flow is preferably and effectively obtained by primary percutaneous coronary intervention (PPCI). After opening the occluded artery, however, the reperfusion process itself causes damage to the myocardium, the so called "reperfusion injury". The phenomenon of reperfusion injury is incompletely understood and currently there is no established therapy for preventing it. Contributory factors are intramyocardial edema with compression of the microvasculature, oxidative stress, calcium overload, mitochondrial transition pore opening, micro embolization, neutrophil plugging and hyper contracture. This results in myocardial stunning, reperfusion arrhythmias and ongoing myocardial necrosis. There is general agreement that a large part of the cell death caused by myocardial reperfusion injury occurs during the first few minutes of reperfusion, and that early treatment is required to prevent it. Myocardial hypothermia may attenuate the pathological mechanisms mentioned above. However, limited data are available on the beneficial effects of hypothermia to protect the myocardium from reperfusion damage. In animals, several studies demonstrated a protective effect of hypothermia on the infarction area. This effect was only noted when hypothermia was established before reperfusion. Hypothermia is therefore thought to attenuate several damaging acute reperfusion processes such as oxidative stress, release of cytokines and development of interstitial or cellular edema. Furthermore, it has been shown that induced hypothermia resulted in increased ATP-preservation in the ischemic myocardium compared to normothermia. The intracoronary use of hypothermia by infused cold saline in pigs was demonstrated to be safe by Otake et al. In their study, saline of 4°C was used without complications (such as vasospasm, hemodynamic instability or bradycardia) and it even attenuated ventricular arrhythmia significantly. Studies in humans, however, have not been able to confirm this effect, which is believed to be mainly due to the fact that the therapeutic temperature could not reached before reperfusion in the majority of patients or not achieved at all. Furthermore, in these studies it was intended to induce total body hypothermia, which in turn may lead to systemic reactions such as shivering and enhanced adrenergic state often requiring sedatives, which may necessitate artificial ventilation. In fact, up to now any attempt to achieve therapeutic myocardial hypothermia in humans with myocardial infarction, is fundamentally limited because of four reasons: 1. Inability to cool the myocardium timely, i.e. before reperfusion 2. Inability to cool the diseased myocardium selectively 3. Inability to achieve an adequate decrease of temperature quick enough 4. Inability to achieve an adequate decrease of temperature large enough Consequently, every attempt to achieve effective hypothermia in ST-segment myocardial infarction in humans has been severely hampered and was inadequate. In the last two years, the investigators have developed a methodology overcoming all of the limitations mentioned above. At first, the investigators have tested that methodology in isolated beating pig hearts with coronary artery occlusion and next, the investigators have tested the safety and feasibility of this methodology in humans. Therefore, the time has come to perform a proof-of-principle study in humans, which is the subject of this protocol.
Approximately 5 to 8% of patients undergoing percutaneous coronary interventions requires chronic anticoagulant therapy due to atrial fibrillation or other clinical entities. There are many possible different combinations of the antithrombotic therapy after stent implantation in these patients. Aim of this observational study is to evaluate the real world antithrombotic treatment in patients requiring anticoagulant therapy undergoing stent implantation and to compare the clinical outcome of patients treated with new oral anticoagulant drugs compared to warfarin. The study is prospective, performed in different Italian hospitals and aimed to enroll 1080 patients with a 1 year follow up
In patients with acute ST-elevation myocardial infarction (STEMI), 40-60% have multi-vessel disease with an increased cardiovascular morbidity and mortality. Although it is not recommended to revascularize noninfarct lesions during the acute intervention, recent investigations suggest the opposite and show improved outcome after direct revascularization of noninfarct lesions. It is undesirable to risk procedure-related complications by treating noninfarct lesions without impaired flow. It is currently unknown whether pressure guided revascularization of noninfarct lesions in the acute phase improves outcome compared to the current guidelines. The iMODERN trial aims to compare an iFR-guided intervention of noninfarct lesions during the acute intervention with a deferred stress perfusion CMR-guided strategy during the outpatient follow-up, to determine the optimal therapeutic approach for STEMI patients with multivessel lesions.