Active clinical trials for "Heart Diseases"

The purpose of this study is to discern whether supplementation of Antithrombin III will decrease coagulation and inflammation associated with cardiopulmonary bypass in infants undergoing cardiac surgery.

The purpose of this study is to evaluate efficacy of Polyunsaturated Fatty Acid for the prevention of Atrial Fibrillation and anti-inflammatory effects in patients after CABG surgery

This study will evaluate the efficacy and safety of Azimilide on the incidence of cardiovascular hospitalizations, cardiovascular emergency department visits or cardiovascular death in patients with Implantable Cardioverter Defibrillators (ICDs)

The aim of the study is to analyze the potential of pressure controlled intermittent coronary sinus occlusion (PICSO) to prevent/reverse the ischemic burden as well as reperfusion injury. To achieve insight into the clinical significance of this local preconditioning effect, global hemodynamics, cardiac performance and clinical outcome in the first 30 days will be related to the ability of this intervention to protect the myocardium in elective surgical procedures, ameliorating cellular decay and preserving the microcirculation therefore improving graft flow, reducing enzyme leakage and finally improving myocardial performance.

The purpose of this study tests whether beta-blocker will benefit asymptomatic patients with chronic primary mitral regurgitation.

The focus of this study is to observe the impact of weight loss in overweight individuals who have pre-hypertension (have a blood pressure reading of 121-139/81-89 mm Hg). The specific focus is to observe the difference in diastolic dysfunction (heart function) in these individuals at the beginning of the study and then again after 24-28 weeks. Diastolic dysfunction in this population indicates an increased risk of heart failure in the future. The aim of this study is to prevent or reduce the risk of heart failure in overweight individuals with pre-hypertension.

This study will examine genome sequencing in clinical research. Genome sequencing is a process in which researchers analyze (or sequence) part or all of the genome from a single person. The human genome is the material in cells that includes thousands of genes. Gene changes that cause or contribute to disease can be passed on from one generation to the next. This study first focuses on heart disease. Later, researchers hope to study other conditions and genes, with the eventual goal of sequencing most or all of participants genes. Participants ages 45 to 65 years of age and who do not smoke, may be eligible for this study. Patients will come to the NIH Clinical Research Center for an initial study to last about half a day. They will donate a blood sample and complete a short survey. Then they will meet the genetic counselor to learn more about genome sequencing. Those who join the study will undergo the following procedures and evaluations: Family history and medical history. Measurement of height and blood pressure. Noninvasive heart tests, including electrocardiogram and echocardiogram. Drawing of about 3 ounces of blood (5 to 6 tablespoons); part of the blood sample will be used for research and another part for clinical testing. Multidetector computed tomography (CT), a test to measure coronary artery calcification, that is, condition of inflexibility. Each patient will receive a letter with results of the clinical laboratory values and evaluations. There will be recommendations for follow-up with the patient s doctors. Risks in this study include exposure to radiation from the CT test. The radiation amount used is about the same that a person normally receives from natural sources, such as from the sun, outer space, and radioactive materials found naturally in the earth s air and soil. Another slight risk involves reactions to a contrast agent that may be used in the echocardiogram. Side effects can be headache, nausea or vomiting, a warm sensation, and dizziness. With the samples that patients provide, researchers will start by sequencing about 400 genes related to heart disease. Analysis will take months to complete. Genome sequencing is difficult to do, and researchers have much to learn about the genes they sequence and the gene changes they find. If the researchers find gene changes that are important to the health of a participant, they will contact that participant and give him/her the choice of learning such results. This study may or may not have a direct benefit for participants. Patients would get free clinical testing for cholesterol, diabetes, and other conditions, as well as information about gene changes. Knowledge gained will benefit people in the future as researchers learn about the relationship between gene changes and health.

Atrial fibrillation (AF) is a major public health issue: it is increasingly common, incurs substantial healthcare expenditure, and is associated with a range of adverse outcomes. There is rationale for the early diagnosis of AF, before the first complication occurs. Previous AF screening research is limited by low yields of new cases and strokes prevented in the screened populations. For AF screening to be clinically and cost-effective, the efficiency of identification of newly diagnosed AF needs to be improved and the intervention offered may have to extend beyond oral anticoagulation for stroke prophylaxis. Previous prediction models for incident AF have been limited by their data sources and methodologies. An accurate model that utilises existing routinely-collected data is needed to inform clinicians of patient-level risk of AF, inform national screening policy and highlight opportunities to improve patient outcomes from AF screening beyond that of only stroke prevention. The investigators will use routinely-collected hospital-linked primary care data to develop and validate a model for prediction of incident AF within a short prediction horizon, incorporating both a machine learning and traditional regression method. They will also investigate how atrial fibrillation risk is associated with other diseases and death. Using only clinical factors readily accessible in the community, the investigators will provide a method for the identification of individuals in the community who are at risk of AF, thus accelerating research assessing whether atrial fibrillation screening is clinically effective when targeted to high-risk individuals.

This clinical investigation evaluates the safety of cryoablation (sclerotherapy of muscle tissue of the heart by freezing) in paroxysmal atrial fibrillation with the newly developed CoolLoop® cryoablation catheter. A further aim of the investigation is the evaluation of the efficacy and average duration of the applied procedure.

The objective of this registry is the characterization of patients with atrial fibrillation (AF) and/ or atrial flutter (AFL) with confirmed VHD who are prescribed edoxaban in a real life clinical setting.