View clinical trials related to Left Ventricular Dysfunction.
Filter by:More than 1 million Americans suffer heart attacks each year. Although current treatments are able to stabilize the condition of the heart, none is able to restore heart function as it was prior to the heart attack. Adult stem cells, which are immature cells that can become many different types of cells, may offer a potential means of reversing or preventing permanent damage caused by a heart attack. Recent studies have shown promise in using adult stem cells from bone marrow to reverse damage to the heart muscle caused by a heart attack, but more research is needed to assess the safety and effectiveness of stem cell use and to discover the best time to administer treatment. This study will evaluate the safety and effectiveness of using adult stem cell infusions 2 to 3 weeks after a heart attack for improving heart function in people who have had a recent heart attack and a common procedure called a percutaneous coronary intervention (PCI).
Heart attacks are a leading cause of death for both men and women in the United States. A heart attack occurs when blood flow to the heart is restricted, commonly due to a blood clot that has formed in one of the coronary arteries. If the clot becomes large enough, blood flow to the heart can be blocked almost completely and the heart muscle in that area can suffer permanent injury or death. Although a percutaneous coronary intervention (PCI) can be used to open up the blocked artery and restore blood flow to the heart muscle, there may be a significant amount of heart tissue that has been irreversibly damaged. Recent studies have shown that adult stem cells from bone marrow may be able to improve heart function after a heart attack. This study will evaluate the safety and effectiveness of using adult stem cells for improving heart function in people who have had a recent heart attack and a PCI.
To compare a surgical approach of LV lead placement for BIV pacing with the conventional transvenous approach by assessment of differences on the effects on cardiac perfusion and relate this to the clinical cardiac function.
The purpose of this prospective, non-randomized, single-arm feasibility study is to evaluate safety and feasibility of the iCoapsys System in patients with functional mitral valve insufficiency caused by annular dilation and/or papillary muscle displacement.
This trial is a prospective, multi-center, randomized study of patients with coronary artery disease (CAD) and mild to moderate left ventricular (LV) dysfunction. The primary objective of this study is to test the hypothesis that Implantable Cardioverter Defibrillator (ICD) therapy in combination with medical therapy in patients with an infarct size greater than or equal to 10% of the left ventricular mass improves long term survival compared to medical therapy alone. In addition to the 2-arm randomized trial, the study will also include a non-investigational registry of non-randomized patients.
This study will be done in patients who require the implantation of a cardiac pacemaker (an electronic device that controls the heartbeat) for complete heart block (a heart rhythm abnormality resulting in a slow heart beat). Pacemakers regulate the heart beat by delivering pulses of electricity through special wires (pacing leads) which are placed inside the heart. This study will compare two groups of pacemaker patients. Each group will have their pacing leads placed in a particular location in the heart. The purpose of the study is to show whether the position used in one group is better for maintaining effective heart function compared to the position used in the other group. The leads in one group will be placed in a position called the Right Ventricular Apex. This is the traditional and most frequently used position for pacemaker leads. The leads in the other group will be placed in a position called the Right Ventricular High Septum. This is a less commonly used position, but may result in health benefits for the patients compared with the Right Ventricular Apex.
This study will explore which characteristics of patients with heart failure will likely predict improvement after cardiac resynchronization (CRT), implantation of a pacemaker to improve heart function. In spite of major medical advances, about 30% to 40% of patients with heart failure do not respond to CRT, and the reasons are not well understood. This study will involve magnetic resonance imaging (MRI), electrocardiogram (ECG), and echocardiography techniques to let researchers examine what may influence response to CRT. Patients ages 18 and older with a left ventricular disorder and who are not pregnant or breastfeeding may be eligible for this study. Initial evaluation will take 5 to 6 hours. A blood sample of about 2 tablespoons will be collected, and several procedures will be performed. MRI uses a strong magnetic field and radio waves to obtain images of body organs and tissues. For that procedure, patients will lie on a table that slides into the enclosed tunnel of the scanner and be asked to lie still. They will be in the scanner for 30 to 90 minutes. As the scanner takes pictures, patients will hear knocking sounds, and they may be asked to hold their breath intermittently for 5 to 20 seconds. During part of the scan, a drug called gadolinium will be given intravenously (IV), to make the heart easier to see. Patients will be able to communicate with the MRI staff at all times during the scan. At any time, patients may ask to be moved out of the machine. Patients having metal in their body that interferes with the MRI scanner should not have this test. During the procedure, an ECG machine will monitor the heart, through wires connected to pads on the skin. Patients will have an echocardiogram, in which sound waves look at the heart. A small handheld probe will touch the chest and abdomen, and an IV tube may be inserted to inject a contrast drug to improve the quality of heart images. Patients will have a cardiopulmonary stress test (treadmill test) and a 6-minute walk test, both before pacemaker implantation and then 6 months afterward. Also before and after pacemaker implantation, patients will complete the Minnesota Living with Heart Failure Questionnaire, regarding the impact of heart failure on patients' lives. The follow-up visit will take 3 to 4 hours.
The purpose of this investigation is to develop a means to improve the recovery of cardiac metabolism and ventricular function following coronary artery bypass surgery (CABG) in patients with poor preoperative ventricular function (e.g. ejection fraction <40%).
The purpose of this prospective, randomized, multi-center, pivotal trial is to compare the safety and effectiveness of the off-pump, closed heart Coapsys System (Myocor, Inc.) to open surgical repair of the mitral valve using an annuloplasty ring or band in patients with moderate to severe functional mitral regurgitation.