View clinical trials related to Cardiomyopathies.
Filter by:This study will determine the impact of highly active antiretroviral therapy (HAART) on the developing cardiovascular system, the evolution of HAART-associated cardiovascular changes over time, and the association between cardiovascular measurements with HAART exposure.
Heart failure is a progressive disease that decreases the pumping action of the heart. This may cause a backup of fluid in the heart and may result in heart beat changes. Using a medical device like a pacemaker or a defibrillator can help the heart to pump in regular beats. However, not all patients do better with a device. Currently, there is not a way to identify which patients will benefit from the device. The purpose of this study is to determine if using medical tests, Echocardiogram, can help in predicting which patients will improve. The types of patients needed for this study are those who have been diagnosed with moderate or severe heart failure.
The purpose of this study is to determine the effects of subcutaneous injection of Human BNP (nesiritide), a hormone produced by the heart, on the pumping ability of the heart, kidney function, and hormonal function in persons with heart failure.
Patients with cirrhosis have a altered cardiac response to stress. This study evaluate the cardiac response by MRI during dobutamine stress. Hypothesis: impared increase in cardiac output, cardiac index, ejection fraction.
Chronic alcoholics suffer from weak skeletal and cardiac muscle. The investigators have discovered a beneficial effect of spironolactone-treatment in that regard. Therefore, a double blind placebo controlled study is conducted, to examine the effects of spironolactone on cardiac and skeletal muscle-function in chronic alcoholics.
The aim of this study is the identification of familial congenital arrhythmogenic disorders and their clinical follow-up.
Cardiac resynchronization therapy has been shown to be effective in reducing symptoms and mortality in heart failure patients. However, very few is known about the importance of the left ventricular pacing site. We study in a random order 11 different left ventricular pacing sites and compare their hemodynamics using pressure-volume catheters. The consequences on the surface ECG are also assessed.
Pacemakers can be attached to one or more than one of the heart chambers. After watching pacemakers work over time, doctors have found that the pacemakers that stimulate only one chamber of the heart sometimes lead to problems later. These problems may be changes in the size and shape of the heart. The heart cannot work as well when some of these changes happen. We need to learn more about these changes and how to prevent them. There has not been an easy way to do this. A new treatment called Cardiac Resynchronization Therapy (CRT) is associated with biventricular pacing where two chambers of the heart are stimulated simultaneously. Tissue Doppler Imaging,Tissue Synchronization Imaging and 3 dimensional echocardiography are new forms of technology that look at the heart while it works. They are similar to a moving x-ray that can watch the heart muscles moving. The movement can be measured. Doctors will check for changes that happen over time. This has not been studied in children before because this kind of is new to this group of patients. This technology is noninvasive which means it can be done from the outside of the body and is painless. The hearts of children grow fast. It is important to be able to know if the pacemaker or problems from dilated cardiomyopathy are causing any changes in the heart that might cause problems. We expect to be able to use information we learn from this study to improve how we use pacemakers in the future to avoid problems that can happen over time.
This is a phase 1, single-blind trial to evaluate using autologous bone marrow mononuclear stem cells in ischemic cardiomyopathy patients. The patients must have a Left Ventricular Ejection Fraction (LVEF) of less than or equal to 45%. Once the patient meets all inclusion criteria, and no exclusion criteria are found, the subject is consented for the study, and extensive baseline testing is performed at St Luke's Hospital in Houston. Once all baseline testing criteria is met, the patient has their own bone marrow harvested and later that day the subject is taken to a cardiac catheterization lab where left ventricular electromechanical mapping using NOGA software (NOGA mapping) is performed and the processed stem cells are injected under electromechanical guidance into the affected areas of the left ventricle. The patient is usually discharged home the next day and returns for follow up visits at weeks 1, 2, 4, 6, 8, 12, months 6 and 12 and for phone call follow-up at months 4, 5, 7, 8, 9, 10, 11. Patients undergo extensive testing at most of these follow-up visits, including repeat cardiac catheterization with NOGA mapping at month 6 after stem cell injection.
The current study is part of a large multi-investigator grant to look at the pharmacogenetics of a number of membrane transporters. Previously, the investigators have recruited a cohort of healthy volunteers (Studies of Pharmacogenetics in Ethnically-Diverse Populations, or SOPHIE) and have resequenced the coding region of a number of membrane transporter genes to identify genetic polymorphisms in these genes. Subjects in this cohort have agreed to be called back for recruitment in further studies based on their own genetic sequence, allowing the investigators the possibility to prospectively study the influence of genetic polymorphisms on particular phenotypes (i.e., genotype-to-phenotype studies). The investigators plan to take a genotype-to-phenotype approach to study the influence of specific polymorphisms in the novel organic cation transporter 2 (OCTN2) gene on carnitine and lipid metabolism in healthy subjects.