View clinical trials related to Coronary Artery Disease.
Filter by:As biologic, epidemiologic, and clinical trial data have demonstrated, inflammation is a key driver of atherosclerosis. Recently, a gigantic proof-of-concept trial, CANTOS has demonstrated that inflammation of atherosclerosis can be effectively modulated by Canakinumab. However, fatal infections encountered and high cost in CANTOS. There is, therefore, a clear need for cheaper and safe alternatives. The latest cell biological studies have demonstrated that mesenchymal stem cells have a unique immunomodulatory function. MSCs contribute to a critical role in regulating the inflammatory microenvironment and interacting with immune cells and induce anti- inflammatory macrophages, inhibit foam cell formation, which could reduce atherosclerosis in pre-clinical studies. Therefore, in this randomized, controlled trial, our aim was to assess the safety and the anti-inflammatory efficacy of intravenous infusion human umbilical Wharton's jelly-derived mesenchymal stem Cell (WJMSC) in patients with coronary artery atherosclerosis disease.
The purpose of this study is to determine the increase in myocardial blood flow during heat exposure and how this response is affected by age and coronary artery disease.
Most patients presenting to hospital with chest pain are discharged home without further tests once a heart attack has been ruled out. Current strategies to assess patients with a suspected heart attack involve blood tests to measure troponin, a protein released into the bloodstream when the heart muscle is damaged. Despite having had a heart attack ruled-out, some patients have unrecognised coronary heart disease and are at risk of having a heart attack in the future. However, we do not know what is the best approach to identify and treat these patients. This study will use a heart scan known as computed tomography coronary angiogram (CTCA) to look for underlying coronary heart disease in patients who have had a heart attack ruled out. In an earlier study, we performed this scan in patients referred to the outpatient cardiology clinic with stable chest pain and found that this improved the diagnosis of coronary heart disease, leading to improvement in patient care that prevented many future heart attacks. Our research has also demonstrated that troponin levels below the threshold used to diagnose a heart attack identify those who are at greater risk of having a heart attack in the future. The aim of this study is to confirm whether these low levels of troponin can identify patients who have underlying coronary heart disease and may benefit from further testing and preventative treatment.
It is well known fact, that prediabetes is a predictor of high cardiovascular mortality, increasing the risk of developing such adverse cardiovascular events as myocardial infarction, stroke and sudden cardiac death. The key pathogenetic link in development of carbohydrates metabolism disorders (CMD) is insulin resistance (IR), which is one of the crucial mechanisms for the development and progression of chronic heart failure (CHF). IR disrupts the functioning of the myocardium due to endothelial dysfunction, inflammation, oxidative stress, remodeling and impaired myocardial metabolism. In condition of a combination of CMD and CHF the reverse development of hyperglycemia is also difficult due to hyperactivation of neurohormonal systems - renin-angiotensin-aldosterone system, in particular. So, drug therapy should neutralize the undesirable metabolic effects of hyperglycemia on the course of CHF, as well as prevent the development of micro- and macrovascular complications. The study will investigate the ability of metformin to impact on clinical and laboratory (neurohormonal, lipid profiles, renal function) parameters of ischemic etiology heart failure patients with prediabetes, as well as their quality of life and prognosis (incidence of adverse cardiovascular events). These tests will be assessed at the beginning and repeated after one year. At the end of the study we will investigate the difference between lifestyle modification effect and metformin treatment. The study is funded by Ministry of Education and Science of Kyrgyz Republic.
Background: Diabetes, and especially diabetic kidney disease is associated with the development of cardiovascular disease such as calcification in the coronary arteries and heart failure. Sleep apnea is frequent among patients with diabetes and diabetic kidney disease and sleep apnea itself is a solitary risk factor in the development of cardiovascular disease. Nonetheless, sleep apnea is underdiagnosed in diabetes patients because of a discrepancy between sleep apnea severity and actual oxygen deficiency symptoms which makes the diagnosis difficult. For that reason, many diabetics have undiagnosed sleep apnea together with cardiovascular disease. Early discovery of sleep apnea among high risk diabetic patients may therefore be considered crucial before cardiovascular complications develop. For this reason, sleep apnea screening of high-risk diabetics can possibly improve early diagnostics of cardiovascular disease. Aim: This study will seek to establish the association between obstructive sleep apnea (OSA) and coronary calcification and heart failure in patients with diabetic kidney disease. The basic hypothesis of the study is that patients with diabetic kidney disease and concurrent OSA have a higher prevalence and severity of coronary calcification and heart failure compared to patients without OSA. Methods: Diabetic adult patients with scheduled check-ups at Steno Diabetes Center Aarhus, or Department of Renal Medicine on Aarhus University Hospital will be included in the study. Firstly, all included patients are screened for sleep apnea with the devices SomnoTouch® and ApneaLink®. Based on the sleep apnea determination; 40 patients with moderate-severe sleep apnea are compared with 40 patients without sleep apnea. In both groups, the patients are examined for calcification in the coronary vessels using a CT-scan while the function of the heart is examined by ultrasound (echocardiography). The stiffness of aorta is measured and performed using radial artery tonometry (SphygmoCor®). Furthermore, range of blood- and urine samples will be performed The perspectives are that patients with diabetes should be regularly evaluated for sleep apnea and that patients with moderate/severe sleep apnea should undergo further examination for cardiovascular disease even though the patients don't display any symptoms of either cardiovascular disease or sleep apnea.
The investigators aim to investigate the prognostic implication of stenosis and plaque features on coronary CT angiography (CCTA), physiologic assessment, and pharmacotherapy after invasive coronary angiography.
A FIH study to collect preliminary device safety, feasibility and performance data of the XABG in patients with symptomatic coronary artery disease (SCAD), with suitable multi vessel disease (MVD) and selected by the local Heart Team for elective coronary artery bypass grafts surgery of at least 3 bypass grafts (minimally 1 artery and 2 veins or 2 arteries and 1 vein).
The study design is a double blinded randomised control trial study that aims to conduct a randomised controlled trial of empagliflozin and determine if empagliflozin will improve myocardial blood flow in asymptomatic high risk type 2 diabetic patients. Also, to determine a cut-off using maximum upslope ratio and myocardial perfusion reserve index in which patients would demonstrate an improvement in myocardial blood flow.
Atrial fibrillation (AF) is the most common cardiac arrhythmia associated with excessive risk of ischemic stroke and heart failure as well as reduced life expectancy. On the other hand, chronic coronary syndromes (CCS) remains the main cause of morbidity and mortality in an aging population. Both disease entities share common risk factors such as hypertension, diabetes and obesity The purpose of the study is to investigate the hypothesis indicating lack of significant coronary lesions in AF vs. sinus rhythm (SR) patients.
The purpose of SCADIAB is to assess the real-life efficiency of systematic screening for ischemic heart disease in T2DM patients at very high cardiovascular risk, without known coronary heart disease, from the databases of the National Health Data System (SNDS).