View clinical trials related to Myocardial Ischemia.
Filter by:The SYNTAX III Revolution trial is a randomized diagnostic research study that investigates the use of CT scan and angiogram of the heart to help doctors decide which method is the best to improve blood supply to the heart in patients with complex coronary artery disease. Each patient will undergo an angiogram and CT scan per standard of care. The randomization strategy in this study is not between patients but between two teams of doctors, the so-called "Heart Teams", will be randomized: in the first round, team 1 assesses the angiogram, and team 2 assesses the CT scan. Then they make a decision about which treatment would be the best to treat complex coronary artery disease. In the second round, both teams see the imaging method that they did not see in the first round, and make the decision again. The final decision on the clinical treatment strategy is at the sole discretion of the Heart Team and there are no criteria described in SYNTAXIII Revolution protocol leading influencing this final decision. Hypothesis: Determination of the best treatment strategy for coronary artery disease based on a CT scan will result in similar decisions as based on invasive coronary angiography.
This study aims to understand the impact of time-of-the day on human myocardial tolerance to ischemia-reperfusion by exploring atrial myocardium biopsied during cardiac surgery. Patients scheduled for non-urgent cardiac surgery (coronary artery by-pas graft and/or aortic valve replacement) will be assigned to a morning or an afternoon cardiac surgery based on randomization. Myocardial biopsies will be explored in ex vivo conditions mimicking ischemia-reperfusion.
The RATIO Study is a multicenter, nationwide, randomized, controlled, single blinded, unfunded trial of n. 900 patients undergoing multivessel OPCAB (≥2 grafts). This study is designed to test in patients undergoing off-pump coronary artery bypass surgery the hypothesis that full (high dose, 300 U/kg) and half (low dose,150 U/kg) heparinization are not different in terms of thrombotic complications and major perioperative bleeding events (null hypothesis).
The purpose of this study is to determine the diagnostic accuracy of MPICT for the detection of hemodynamically relevant coronary stenosis (as determined by invasive FFR) in patients with suspected or known CAD clinically referred for invasive angiography.
Coronary artery disease (CAD) is a very common cause of heart failure affecting millions of people worldwide, which is caused by build-up of plaque inside arteries of the heart. Build-up of plaque eventually impacts the blood supply to the heart. In medicine, techniques (invasive or non-invasive) such as coronary angiography, intravascular ultrasound, computed tomography, magnetic resonance imaging, positron emission tomography and transthoracic echocardiography can be used to diagnose CAD. The investigators aim to study Coronary Artery Disease significance with the combination of computed tomography angiography (CTA), and computational fluid dynamics (CFD) methods. CTA is a non-invasive technique to visualize arterial vessels, which uses computer-processed x-rays. Computational Fluid Dynamics employs digital computers and numerical methods to solve complex flow patterns inside arterial vessels. Combining these two methods, the investigators are able to provide detailed blood flow information and mechanical stress distributions on the vessels. This study therefore, aims to propose a non-invasive methodology to assess the significance of CAD.
The investigators attempt to investigate the organ protective effect of remote ischemic conditioning in patients undergoing non-cardiac surgery with history of ischemic heart disease.
The purpose of this study is to find an association between a protein named Podocan and WNT pathway regulatory molecules in patients with different forms of Coronary Artery Disease (Acute Coronary syndrome, Stable Angina and Coronary Artery Restenosis). It has been found in experimental studies that this protein is regulating smooth muscle cell function and hence may be influencing the progression of Coronary Artery Disease (CAD). We are testing to see if the same regulatory function exists in human subjects. Studying patient's blood will possibly enable to identify an association between Podocan and CAD. This may help to better prevent and treat CAD with improved understanding of the mechanism of the disease. No drugs or other therapeutic interventions will be used for the purpose of the research study. Only blood samples will be collected in the cardiac catheterization lab. As a part of this study participants will be followed for repeat events or repeat cardiac catheterization over a period of 24 months.
To investigate whether apelin can be used as an indicator to predict postoperative atrial fibrillation in patients with coronary atherosclerotic heart disease, and to provide an objective basis for the clinical selection of a preventive intervention program for atrial fibrillation.
Demonstrate in a large multicenter population the diagnostic performance of a pre-commercial on-site, local, CT angiography derived FFR algorithm in comparison to invasive FFR.
Biobank is a program which collects biological samples, health information and imaging data from consented patients and stored them at the core facility. These information would be used to study the molecular, imaging and outcome studies of cardiovascular health and disease.