View clinical trials related to Heart Disease.
Filter by:Blood samples and health information (e.g., age at diagnosis, test results) are collected for the purposes of genetic research. The blood samples are assigned a number and stored in a repository for safe keeping until they are needed for a research project. Participants are persons who are healthy (not having high blood pressure, diabetes, or high cholesterol levels) or persons who have Coronary Artery Disease (CAD) and live in Indiana. Participants complete a questionnaire at the time the blood sample is drawn and are contacted once a year to update their health history. Researchers apply to the Fairbanks Institute for use of the blood samples and health information minus participant names and contact information. Their research is required to be related to find genes or substances made by genes that may be involved in Coronary Artery Disease with the purpose of improving the investigators understanding of the illness potentially leading to the development of new diagnostic tools for identifying the illness, new treatments,or preventative measures. This study will be repeated for other disorders like Diabetes and Cancer.
The BioImage Study is a study of the characteristics of subclinical cardiovascular disease, as measured by imaging modalities, unsupervised circulating biomarker measurements, and risk factors that predict progression to overt clinical cardiovascular disease, in a diverse, population-based sample of 7,300 men (aged 55-80) and women (aged 60-80). The socio-demographics of the study population aims to mirror the US population as a whole with approximately 69% of the cohort will be white, 12% African-American, 13% Hispanic, 4% Asian, predominantly of Chinese descent and 2% other (U.S. Census Bureau: 2000). The cohort will be recruited from the Humana Health Plan membership represented in three major US markets; Chicago, Illinois, Louisville, Kentucky and Southern Florida. Of the 7,300 participants, 6,000 will be characterized with respect to their Framingham risk score and various imaging features including coronary calcification, carotid intima-media thickness (IMT), presence of atherosclerotic plaques, and lower extremity vascular insufficiency as determined by the ankle brachial index (ABI). Blood samples will be assayed for putative biomarkers using a variety of methodologies including unsupervised proteomic and metabolomic profiling of plasma, RNA expression profiling and candidate gene analysis or genome wide scanning. These approaches will also be combined with targeted assays for particular analytes. Biological samples will be banked at the time of collection for these analyses and for additional follow on case-control and validation studies. Participants will be followed for identification and characterization of cardiovascular disease events, including acute myocardial infarction and other forms of Coronary Artery Disease (CAD), and stroke; mortality; and for cardiovascular disease interventions. The remaining 1,300 subjects will be evaluated and followed in a similar manner except no imaging studies will be conducted. The study will be conducted using an innovative infrastructure and method of participant recruitment and enrollment. Mobile clinics containing the imaging equipment will travel to the three markets included in the study. The mobile clinic configuration allows for a high level of consistency in the data measurements which will be collected from diverse geographic areas and populations. Participants will be recruited based on claims monitoring to pre-determine eligibility. The baseline examinations of the 7,300 participants will occur over a 12-month period. Based on particular findings (Coronary Artery Calcium (CAC) score, Carotid Intima-Media Thickness (IMT), atherosclerotic plaque, Ankle Brachial Index (ABI), and presence of Abdominal Aortic Aneurysm (AAA), approximately 3,000 participants of the 6,000 imaging cohort will be referred for higher resolution imaging modalities to better characterize their arterial disease. This additional imaging will also be conducted at the mobile clinics and occur during the same 12-month period. Participants will be contacted every 6-months throughout the 3-year study to assess cardiovascular events, clinical morbidity and mortality, and to obtain additional blood samples.
Comparison of two operative techniques (on-pump vs off-pump)of coronary revascularisation of the best treatment concept for patients older or 75 years old. Hypothesis: The coronary bypass operation without use of the heart-lung machine (off-pump=OPCAB) reduces the combined endpoint in comparison with the conventional coronary bypass operation (on-pump).
The purpose of this study is to see if taking a cholesterol lowering drug Lipitor (Atorvastatin Calcium)will increase the number of endothelial progenitor cells (EPC's) circulating in the blood of heart failure patients taking this cholesterol-lowering drug, and if this will also show an improvement in the damaged areas of the patient's hearts as documented by MRI scans.
The purpose of this study tests whether beta-blocker will benefit asymptomatic patients with chronic primary mitral regurgitation.
The purpose of this study is to evaluate the safety and efficacy of telcagepant in the treatment of acute migraine in participants with stable vascular disease. Acetaminophen/paracetamol (APAP) will be used as an active comparator in this study. The primary hypothesis of this study is that telcagepant 300 mg is superior to placebo.
The aim of the present study is to assess the effect of a high intake of industrially produced trans fatty acids for 16 weeks on abdominal obesity and risk markers of type 2 diabetes and heart disease in healthy, moderately overweight, postmenopausal women.
To demonstrate a reduction in the number of ventricular therapies (ATP and Shocks) delivered for treating spontaneous arrhythmia episodes with a fast cycle length (CL≤ 320ms) as a consequence of self-termination and better arrhythmia discrimination due to a greater number of R-R intervals necessary to detect ventricular events.
Cardiovascular is a major cause of mortality in Iran, accounting for 45.7% of deaths. In Golestan (North Eastern Iran) preliminary findings from follow-up of the Golestan Cohort are consistent with national figures: with 45% (at least 22 of 48 deaths) of all deaths attributed to cardiovascular events. Cardiovascular diseases will become an increasing problem as the Iranian population ages. In 2003 Law and Wald proposed prevention of cardiovascular disease using fixed-dose combination therapy combining antihypertensive, lipid lowering and antiplatelet drugs in a single preparation. They proposed that this treatment should be offered to all persons at high risk of cardiovascular disease whether or not they have elevated blood pressure or elevated serum lipid concentrations. This pilot study aims to investigate the safety and efficacy of fixed-dose combination therapy with two antihypertensive drugs, aspirin and atorvastatin in a population who would not currently be considered eligible for antihypertensive treatment or for lipid lowering treatment. Methods: This is a double-blind randomized controlled trial. The intervention group will be assigned to take a tablet consisting of a single daily tablet comprising Aspirin 81mg, Hydrochlorothiazide 12.5mg, Enalapril 2.5mg and Atorvastatin 20mg. The control group will be assigned to an identical placebo. The population studied includes men aged 50 to 80 (inclusive) and women aged 55 to 80 (inclusive) who are currently not eligible for or taking antihypertensive or lipid lowering therapy. Persons who are found at baseline to have blood pressure >160/100 mm Hg, total cholesterol >240mg/dL, existing cardiovascular disease or to be taking antihypertensive ore lipid lowering therapy are excluded. It is intended to randomize and follow up 500 subjects for 12 months. The primary outcome for the purpose of sample size calculation is change in systolic blood pressure. Additional outcomes include change in diastolic blood pressure, change in LDL cholesterol and occurrence of adverse events.
Heart disease is not just the number one killer of women, it is also a leading cause of disability. While it is generally believed that heart disease in women is a disease of old age, the stark reality is that heart disease is responsible for more deaths than breast cancer AT ALL AGES. Also, when young women develop heart disease, they are more likely to die or become disabled than their male peers. Identifying women at risk for heart disease is an important step toward reducing the impact of this disease. Although women can develop heart disease at any age, most women show signs and symptoms of disease about 10 years after men. For years, it has been thought that the reason for this lag is that women's hearts are protected by estrogen, and that when women go through menopause and lose their natural estrogen, they also lose their protection from heart disease. It has been assumed that if estrogen is replaced then protection will continue. These assumptions have not been proven. In fact, three large, randomized trials have shown no benefit from hormone replacement therapy in women known to have heart disease, and in fact have shown that hormone replacement may be harmful. To better understand the role of hormones and heart disease, the investigators propose to look at markers of heart disease in healthy women and compare this to their natural hormone levels. One of the markers known to be related to heart disease is carotid artery intima-medial thickness (c-IMT) which can be measured by creating an ultrasound picture of an artery in the neck. The investgators will use c-IMT scans and serum blood samples from women in the NIH-sponsored Los Angeles Atherosclerosis Study (LAAS), a large epidemiologic study that followed participants for 8 years. The proposed study will use risk factor information, serum samples and c-IMT scans collected from the female participants (about 269 women) over the 8 years of follow-up. The total sample size is 269 subjects, each of whom donated 3 blood specimens for the LAAS study. This research will examine those specimens (800 in total). It will also measure other markers of heart disease, including inflammation (hsCRP) and diabetes (insulin and glucose). All information has been obtained and there will be no need to collect additional information from participants nor additional blood specimens.