Active clinical trials for "Myocardial Infarction"

The purpose of this study is to test whether early pre-reperfusion metoprolol administration in patients suffering and acute myocardial infarction might reduce the size of myocardial necrosis.

Reducing the rest time after diagnostic cardiac catheterization for three hours does not increase the complications concerning to the procedure, compared to the rest of five hours.

To evaluate the safety, performance and efficacy of the bioresorbable vascular scaffold (BVS) system in patients with coronary artery disease

Patients presenting with large myocardial infarction and signs of persistent ischemia after successful percutaneous coronary intervention, have a poor prognosis with respect to outcome and development of heart failure in the future. The hypothesis of this study is that in patients in whom persistent ischemia is present, use of intra-aortic balloon pump will be beneficial and improve outcome.

Administration of Ticagrelor in patients with ST elevation myocardial infarction treated with pharmacological thrombolysis

Coronary artery disease is one of the most prevalent diseases in the western countries. A waxy substance called plaque can build up inside the coronary arteries. Over time, plaque can harden or rupture, and cause narrowing (stenosis) of the arteries and reduce the flow of oxygen-rich blood to the heart. The standard treatment of symptomatic coronary stenosis is percutaneous coronary intervention (PCI) with balloon dilation followed by stent implantation. A stent is a small metallic grid that stabilizes the coronary vessel wall after the balloon dilation. Currently, drug-eluting stents (DES) are the most widely used stent types. DESs consist of a metallic backbone and an antiprolifetive drug-coating bound by a polymer (glue). These devices have reduced the incidence of excessive formation of new tissue (in-stent restenosis) dramatically in comparison with previously used bare-metal stents. However, there are "safety concerns" with DES, since later thrombotic events have been reported. On one hand excessive tissue formation inside the stent can cause in-stent restenosis, and on the other hand insufficient coverage of the stent can cause persistently exposed metalllic material that can induce platelet aggregation and thrombus-formation. The etiology to stent thrombosis is multifactorial. Possible predisposing factors are, among others: 1) hypersensitivity towards the polymer-coating, which may induce delayed healing inside and around the stent, and 2) insufficient contact between the stent and the underlying coronary vessel wall (incomplete stent apposition), which may cause flow-disturbance and delayed healing. Delayed healing causes persistently exposed metallic material that can induce platelet aggregation and thrombus-formation. The Nobori stent is a new-generation DES, coated with a thin layer of drug and a bioabsorbable polymer. The drug is localized on the outer side of the stent, and decreases the release of drug to the blood circulation. The bioabsorbable polymer is degraded after 6-9 months after implantation, and decreases the risk of hypersensitivity-reactions in the vessel wall. The improved pharmacokinetic profile of the stent is thought to improve the healing pattern. At routine coronary angiography, a small plastic tube is inserted in the femoral artery under local anesthesia. Thin, flexible catheters are then advanced through the artery system (femoral artery and aorta) to the coronary arteries. Contrast is injected in to the blood stream by the catheters, and the arteries are depicted by a special X-ray technique during dye-release. By angiography, the outer sides of the coronary arteries are visualized, and balloon dilations and stent implantations are guided by this standard technique. Newer studies have documented that stent placement and expansion is superiorly visualized if supplementary intravascular imaging is performed during stent implantation. Small imaging catheters are wired through the vessel after stent implantation, and film the stent retrogradely through the vessel. Intravascular ultrasound (IVUS) visualizes the complete vessel wall by use of sound waves, and stent expansion is evaluated in detail. Optical coherence tomography (OCT) is a newer light-based, high-resolution technology. The technique can depict every thread (strut) from the stent, enabling visualization of both contact between struts and underlying vessel wall immediately after the procedure, and strut coverage at follow-up. The purpose of this study is to determine whether OCT-guided PCI can improve healing and coverage of the stent in comparison with routine angiographic guidance alone in patients indicating PCI due to myocardial infarction. If OCT-guidance improves coverage of the stent, this might lower the later thrombotic risk. Patients hospitalized due to myocardial infarction are randomized either to OCT-guided or angio-guided stent implantation in the present study. In both groups the Nobori stent is implanted according to standard techniques. In the angio-guided group, implantations are guided by angiography alone. OCT- and IVUS analysis are performed after an angiographic optimal result for documentary reasons. The operator is blinded towards the image findings, and analysis is performed offline later. In the OCT-guided group, both OCT and IVUS analysis is interpreted immediately after the acquisition. If stent apposition and/or expansion is deemed suboptimal, additional balloon dilation and/or stenting is performed. In case of OCT-driven stent optimization, a documentary OCT and IVUS is performed to document the final result. Patients are readmitted 6 months later for a control angiogram inclusive OCT to assess stent coverage. Furthermore, patients are readmitted 12 months after the index procedure for a control angiogram including OCT and IVUS to assess dynamic vessel wall responses.

The purpose of this study is to compare unfractionated heparin (UFH) and bivalirudin in the performance and subsequent outcomes of Primary percutaneous coronary intervention. This will be a pragmatic trial. Interventional procedures will be performed to reflect current and evolving standards, including predominant radial access. All patients will be treated with routine oral anti-platelet therapy pre-procedure. GP IIb/IIIa inhibitors will be reserved for 'bail out' treatment only.

Prospective, randomized and open label trial Hypothesis Infusion of intracoronary darbepoetin-alpha at the time of reperfusion may reduce infarct size and post-infarct pathologic left ventricular remodeling in patients with ST-segment elevation myocardial infarction. Methods Randomization into control group or treatment group Treatment group : Darbepoetin-alpha 300ug intracoronary bolus infusion via over-the-wire balloon system simultaneously with first balloon inflation and conventional treatment Control group : conventional treatment Endpoints peak CK-MB & troponin levels : baseline,6h,12hr,18hr, 24hr, 36hr and 48hr MRI at baseline : infarct size, area at risk and salvaged myocardium MRI at 4 months : prevalence of pathologic left ventricle remodeling (definition: increase of end-diastolic volume index > 20% compared to baseline) safety endpoint : cardiac death, nonfatal myocardial infarction, stent thrombosis, ischemic stroke, hospital readmission with heart failure or ischemic symptom, bleeding and urgent target lesion revascularization

Whereas thrombus aspiration in patients with ST-elevation myocardial infarction (STEMI) is recommended by current guidelines, there are insufficient data to unequivocally support thrombectomy in patients with non-STEMI (NSTEMI). The Thrombus Aspiration in ThrOmbus containing culpRiT lesions in Non-ST-Elevation Myocardial Infarction (TATORT-NSTEMI) trial is a 400 patient, prospective, controlled, multicenter, randomized, open-label trial. The hypothesis is that under the background of early revascularization, adjunctive thrombectomy in comparison to conventional percutaneous coronary intervention (PCI) alone leads to less microvascular obstruction (MO) assessed by cardiac magnetic resonance imaging (CMR) in patients with NSTEMI. Patients will be randomized in a 1:1 fashion to one of the two treatment arms. The primary endpoint is the extent of MO assessed by CMR. Secondary endpoints include infarct size and myocardial salvage assessed by CMR, enzymatic infarct size as well as angiographic parameters, such as Thrombolysis in Myocardial Infarction-flow post-PCI and myocardial blush grade. Furthermore, clinical endpoints including death, myocardial reinfarction, target vessel revascularization and new congestive heart failure will be recorded at 6 and 12 months. Safety will be assessed by bleeding and stroke. In summary, the TATORT-NSTEMI trial has been designed to test the hypothesis that thrombectomy will improve myocardial perfusion in patients with NSTEMI and relevant thrombus burden in the culprit vessel reperfused by early PCI.

One of the important reasons for human dying is Ischemic heart disease (IHD). The most reason is coronary artery disease. Beside morbidity, IHD induce myocardial infarction and necrosis which due to congestive heart failure. One therapeutic method is cellular cardiomyoplasty, which is to produce and substitute the cardiac cells with stem cell transplantation. Cell therapy is a potential therapeutic method to prevent ventricular remodeling after acute myocardial infarction. Human and animal studies have shown that stem cell trans plantation to myocardial infarcted zone can improve heart contractile function. The aim of this study is to comparison the effects of BM-derived AC133 and MNC implantation in patients with myocardial infarction.