Active clinical trials for "Atherosclerosis"

Cardiovascular disease (CVD) remains the leading cause of death in the United States, and improved CVD risk assessment is needed for personalized medicine. Atherosclerosis measures including plaque volume and adverse plaque features have prognostic value. Novel techniques have been developed for assessing carotid, coronary, and femoral atherosclerosis using magnetic resonance imaging (MRI) methods that are rapid and reproducible, have improved spatial resolution, and do not require contrast media, making atherosclerosis assessment in multiple vascular beds feasible during a single MRI session. This pilot research will provide preliminary data to develop an innovative global atherosclerosis measure including carotid, coronary, and femoral vascular beds, for assessing cardiovascular risk and for monitoring atherosclerosis response to therapy. 20 participants will be recruited in one year.

This study is aimed to depict the epidemiological trend, aetiologies, clinical characteristics, treatment options of IS-NOAC in face of the rapidly increasing NOAC usage. Knowledge on this ischaemic stroke entity will define clinical characteristics, identify preventable causes and inform resource allocation on the evaluation modalities, reperfusion strategies and forecast future burden of IS-NOAC.

Inflammation drives atherosclerotic plaque rupture triggering most acute coronary syndromes. Despite advances in diagnosis and management of atherosclerosis, patients with myocardial infarction (MI) remain at increased risk of recurrent events. The RIPPLE study aims to examine the relationship between residual coronary inflammation detected by 68Ga-DOTATATE PET in patients treated for MI to long-term plaque progression measured by CT coronary angiography (CTCA). The association between infarct-related myocardial 68Ga-DOTATATE PET and myocardial function and viability will also be assessed.

Background: - Researchers are interested in studying individuals who have known or suspected metabolic or genetic diseases that put them at a high risk for heart diseases or diseases of their blood vessels. To improve the results of the study, both affected and nonaffected individuals will be asked to provide blood and other samples and will undergo tests to evaluate heart and lung function. Nonaffected individuals will include relatives of affected individuals and healthy nonrelated volunteers. Objectives: - To study individuals who have or are at risk for cardiovascular diseases, as well as their unaffected relatives and healthy volunteers. Eligibility: - Individuals between 1 and 100 years of age. Participants may be healthy volunteers, individuals with cardiovascular diseases, or unaffected relatives of individuals with cardiovascular diseases. Design: Participants will have some or all of the following tests, as directed by the study researchers: Photography of the face and full body Body measurements Radiography, including chest or limb x-rays Metabolic stress testing to study heart and muscle function Echocardiography to study heart function Magnetic resonance imaging (MRI) studies, including cardiovascular MRI, angiography, and contrast MRI, to study heart function and performance Computed tomography (CT) angiogram to obtain images of the heart and lungs Positron emission tomography (PET) imaging to study possible fat infiltration of the heart Six-minute walk test to study heart, lung, and muscle function and performance Vascular ultrasound to study blood vessel walls Blood, tissue, and other specimens will be collected for research and testing, and will be taken either as part of the clinical study or during surgical procedures. Follow-up studies may be performed under separate research protocols.

CARFARE (CARDIOMETABOLIC RISK FACTORS REGISTRY) is a registry done in the context of a cardiovascular primary prevention program of the Cardiometabolic Unit Officia of the Cardiology Department of the Austral University Hospital. The structured and sequential evaluation include measurement of anthropometric parameters (body mass index, BMI), laboratory with metabolic profile, baseline electrocardiogram, blood pressure (BP) measurement, arterial stiffness, subclinical atherosclerosis screening in the carotid and ileo-femoral territories using echo-doppler, echocardiogram, and ergometry test.

The root cause of heart attacks and strokes is atherosclerosis, the hardening and thickening of blood vessels due to the presence of "plaque" which is a build-up of fat and cholesterol in the walls of vessels. To diagnose heart disease, patients receive a stress test to find out if they require surgery. Up to 52% of patients receiving an angiogram (surgery) to look at plaque blockages in the heart are found to be normal (no blockage). Patients who are suspected of having heart disease often undergo a stress test, which helps cardiologists decide if the patient has heart disease, but stress tests can give false results. In Ontario alone, 90% are stress tests are found to be normal and patients are sent home with little follow-up. Of these 3-5% (~4,000 patients/year) will have a major cardiovascular event (heart attack, surgery, or death) within 3 years. We need to improve the stress test accuracy to reduce cardiac outcome. We now know that it is not just the total amount of plaque that leads to heart attacks and strokes, but the composition of the plaque that can lead to breakage causing a heart attack. Plaques are soft and fragile, and typically contain fat and small leaky blood vessels within their cores. If we are able to identify patients that have leaky plaques using ultrasound, we may be able to improve the accuracy of stress testing. We propose a study looking at the combination of stress testing (assessing heart function) and neck ultrasound (assessing plaque composition), to identify patients at risk for cardiovascular events (heart attacks and death). We will enrol patients from 6 sites across Canada and follow-them for cardiac outcome for 3 years.

The purpose of this collaboration is to establish a multi-modality image database including coronary angiograms, optical coherence tomography (OCT), computed tomography angiograms (CTA) and cardiac magnetic resonance imaging (CMR) for future studies. The main goal of this collaboration is to create a resource to promote further understanding of the pathobiology of atherosclerosis through image analysis.

To evaluate the long-term clinical outcomes and prognostic factors in patients with coronary artery disease (CAD) undergoing invasive coronary angiography (ICA), intravascular imaging, or invasive physiologic assessment.

The study will show the influence of inflammatory bowel disease on the risk of development of atherosclerosis

RESSURE-NIRS registry is designed to investigate clinical and pathophysiological characteristics of NIRS-derived lipid-rich plaque in patients with coronary artery disease. This is an on-going multi-center prospective registry in Japan.