View clinical trials related to Coronary Artery Disease.
Filter by:The objective of the HEART Study is to develop a multiscale model of the coronary circulation based on multimodal imaging data (angiography, echocardiography). The predictive comprehensive multi-scale model, developed during this proof-of-concept study, will be used for analyzing functional aspects of coronary artery disease. Model validation is performed against invasive measurements
Is the ExoSeal VSD non-inferior to Angio-Seal vascular closure device (VSD) in the incidence of adverse access site related events at 30 days.
Patients with an impaired blood supply of the heart routinely receive oxygen in order to improve or preserve the oxygen supply of the heart muscle in acute cardiac care. In recent studies a new innovative MRI-technique that can detect changes in oxygen supply of the heart was able to show that the administration of oxygen or fast breathing can decrease the blood supply of the arteries supplying the heart muscle with oxygen. Thus, the administration of oxygen may paradoxically impair the oxygen supply of the heart muscle. In this study the investigators want to investigate, whether the administration of exogenous oxygen via a mask alone and in combination with fast breathing leads to a decrease in oxygen supply in regions with already impaired blood supply by a narrowing of a coronary artery of the heart.
Cardiovascular disease is the second leading cause of death in Denmark, and ischemic heart disease accounts for the bulk of it. The purpose of this study is to clarify whether a mechanical method of remote ischemic conditioning in the form of short-term obstruction of the blood supply to the arm, can improve the heart's blood supply in patients with ischemic heart disease. This will be attempted through experiments on patients with ischemic heart disease and experimental animal studies with simulated cardiovascular disease. This study will help to clarify whether remote ischemic preconditioning can be used to treat patients with ischemic heart disease.
The ABSORB III PK sub-study is a prospective, open-label, non-blinded study enrolling approximately 12 subjects in up to 5 US sites. ABSORB III PK sub-study is a part of ABSORB III RCT (NCT01751906). The objective is to determine the pharmacokinetics of everolimus delivered by the Absorb BVS in a separate and non-randomized cohort of subjects who only receive Absorb BVS with a maximum of two de novo native coronary artery lesions after implantation of the Absorb BVS. Note: The ABSORB III PK subjects will not contribute to the determination of the ABSORB III RCT primary endpoint.
Can Ayurvedic therapy improve markers of cardiovascular health and cardiovascular risk factors in patients with coronary artery disease.
Thickening of the heart muscle (left ventricle) known medically as Left Ventricular Hypertrophy (LVH) is very common in patients with heart disease. This increases risk of cerebrovascular/cardiovascular event. LVH is asymptomatic and managed by the use of medication to control blood pressure, however LVH may be seen in normotensive patients where factors such as obesity and insulin resistance are present. Insulin resistance is a condition where although the body produces insulin it is unable to utilize it effectively. Metformin, a drug used to treat diabetes, can reduce insulin resistance and cause weight loss, it may therefore improve LVH. This study will investigate the ability of metformin to reduce LVH in patients with heart disease, this may be a novel way forward in the risk reduction of cerebrovascular/cardiovascular events. Participants will be identified throughout NHS Tayside, those eligible will be randomly allocated to either metformin or a dummy medication (placebo) and will receive one year of treatment. At the beginning of the study, the thickness of the heart muscle will be measured by ultrasound scan and cardiac Magnetic Resonance Imaging (cMRI). We will also perform non-invasive tests to measure blood vessel function. These tests will be repeated after one year. At the end of the study, we will investigate the difference between placebo treatment and metformin treatment. This study is funded by the British Heart Foundation.
The purpose of this study is to understand the use of Corus CAD also known as Age/Sex/Gene Expression score (ASGES) in the clinical decision making process of patients who underwent the evaluation of chest pain or anginal equivalent symptoms. Specifically, to better understand whether the use of the assay in clinical decision making resulted in changes in noninvasive diagnostic test ordering or diagnostic yield of additional tests ordered and/or invasive angiography.
This study was a feasibility trial that was designed to provide preliminary observations and generate hypotheses for future studies. The aim of the study is to estimate the difference of arachidonic acid induced platelet aggregation rate between ticagrelor mono-therapy and aspirin/ticagrelor dual-therapy after 14 days of treatment in patients with stable coronary artery disease. The potential hypothesis is that the arachidonic acid (AA) induced platelet aggregation rate after 2 weeks of ticagrelor mono-therapy is comparable to that of aspirin/ticagrelor dual-therapy.
Coronary CT angiography is used to examine the coronary arteries in a non-invasive way when a patient is suspected of having coronary artery disease. The test, however, requires relatively high levels of radiation, which have been linked to DNA damage and cancer, and the use of contrast material, which can affect kidney function. The SOMATOM Force, a new third-generation CT scanner manufactured by Siemens, was recently installed at MUSC and holds the potential to obtain quality images while also reducing radiation dose and contrast material. This study aims to test the diagnostic ability of the SOMATOM Force in detecting coronary artery disease and also see if radiation dose and contrast material are reduced compared to the previous 2nd generation scanners. It is suspected that the Force will provide clinical quality images while decreasing radiation dose and contrast material required.