View clinical trials related to Cardiomyopathy.
Filter by: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.
Open-label, multicenter, international, single-treatment study designed to determine TTR stabilization as well as Fx-1006A safety and tolerability, and its effects on clinical outcomes in patients with V122I or wild-type TTR amyloid cardiomyopathy. The study will be conducted in two parts. Part 1 will include a six-week dosing period during which all enrolled patients will self-administer oral Fx-1006A 20 mg soft gelatin capsules once daily for six weeks. At Week 6, blood samples will be collected from each patient to determine TTR stabilization. Patients who complete the Week 6 visit will continue taking daily oral Fx 1006A 20 mg for up to a total of 12 months during Part 2 of this study. If it is determined that a patient is not stabilized at Week 6 (based on TTR stabilization data), the patient will be discontinued from the study. Safety and clinical outcomes will be evaluated during Part 2 of this study. Two whole blood samples for pharmacodynamic assessments (TTR stabilization) and pharmacokinetic assessments (Fx-1006A concentrations as well as calculated steady-state parameters) will be collected at Baseline and Week 6. At Months 6 and 12, two whole blood samples will be collected for pharmacodynamic assessments, and four whole blood samples (two samples per time point) will be collected for pharmacokinetic assessments to be utilized in population pharmacokinetic modeling. Echocardiography, chest x-ray, cardiac MRI, and 24-hour Holter monitoring will be conducted at Baseline, and Months 6 and 12. Six-minute walk test and quality of life utilizing the Patient Global Assessment, KCCQ, and SF-36 will be assessed at Baseline, and Months 3, 6, and 12. NYHA Classification will be assessed at Baseline, Week 6, and Months 3, 6, and 12. Serum markers of troponin I and T, and NT-pro-BNP levels will be assessed at each study visit. Safety and tolerability will be assessed throughout the study. Vital signs, 12-lead ECG, blood and urine samples for clinical laboratory tests (serum chemistry, hematology, coagulation panel, and urinalysis), AEs, and concomitant medications (including diuretic usage) will be assessed at each study visit. Abbreviated physical examinations will be conducted at Baseline, Weeks 2 and 6, and Months 3 and 6, and a complete physical examination will be conducted at Month 12. Clinic visits will be conducted during Screening (Days -30 to -1) and Baseline (Day 0); procedures scheduled for the Baseline visit may be conducted over a period of one week to accommodate patient scheduling. All Baseline procedures must be completed prior to the first self-administered dose on Day 1. Day 1 will be defined as administration of the first dose of study medication, which patients will self-administer at home. During treatment, clinic visits will be conducted at Week 2 (± 2 days), Week 6 (± 1 week), Month 3 (± 1 week), Month 6 (± 2 weeks), and Month 12 (± 2 weeks). Procedures scheduled for the Month 6 and 12 visits may occur over one week during the visit window to accommodate patient scheduling. Monthly telephone contacts (± 1 week of the scheduled date) will be made during months in which no clinical site visits are scheduled (Months 4, 5, 7, 8, 9, 10, and 11) for assessment of AEs and concomitant medications. A final telephone contact to assess AEs and concomitant medication usage will be made 30 days after the last dose of study medication for each patient. Patients who discontinue from the study at any time will have a final visit performed, including all safety assessments, at the time of discontinuation. Any patient discontinuing after the Month 6 visit will also have all exploratory assessments performed.
The aim of the study is to compare clinical benefits of the cardiac resynchronisation (CRT) achieved by the PEA optimised pacing configuration and a CRT optimised by standard clinical procedure. PEA optimised configuration (PEA-CRT) is obtained, during patient's follow-up, using the Peak Endocardial Acceleration sensor features onboard the device.
The primary purpose of this study is to compare the number of participants with reversible pulmonary hypertension (vasoreactivity) due to nitric oxide for inhalation and oxygen as compared to 100% oxygen.
This study is looking at cardiac rhythm management (CRM) and fusion beats in patients who have a pacemaker or implantable cardioverter-defibrillator (ICD), to determine if there is a correlation between the time between the contraction of the upper chambers of the heart (atrium) and the lower chambers of the heart, (ventricle) and heart function. Some studies of people with pacemakers have been done to determine if shortening the time of contraction between the atrium and ventricle could benefit the function of the left ventricle. These studies have shown that there is no benefit in heart function.There have been other studies which have shown that chronic pacing of the right ventricle, especially with the lead placed at the tip of the right ventricle, can lead to a decrease in the function of the left ventricle and congestive heart failure. In some patients long term pacing of the right ventricle has also been associated with a reduction in the ability of the left ventricle to pump blood. This is know as a reduced left ventricular ejection fraction, which can be documented by an echocardiogram. This study proposes to evaluate the acute effects of progressive paced fusion beats on the left ventricle to answer the question whether there is an delay between the atrium and ventricle that is "too long" or "too short".
The concept of diabetic cardiomyopathy was initially defined more than 30 years ago, as cardiac failure in diabetic subjects in the absence of underlying coronary artery disease. Diabetes is also thought to contribute to earlier stage cardiac systolic dysfunction and/or to isolated diastolic dysfunction, in excess of underlying coronary artery disease and hypertension. More globally, it is recognized that subjects with type 2 diabetes have more extensive cardiovascular disease and a worse outcome for a similar level of disease than non-diabetic subjects. Despite this epidemiological evidence, the biological programming underpinning the myriad presentations of the diabetic heart' are poorly characterized in humans. Proteomics has emerged as an unbiased technology that enables the measurement of large numbers of steady-state protein levels. The potential to identify a diabetes associated proteomic signature in the heart would be a novel approach to identify putative biological programs altered by the diabetic state. A portion of the right atrial appendage is removed to insert the cardiac bypass machine cannula in certain cardiothoracic procedures. This tissue is usually discarded, however, we propose that it could be employed to examine whether otherwise similar subjects with and without diabetes have distinct atrial proteomic signatures. This pilot study may provide insight into potential biological pathways that orchestrate the worse cardiac prognosis in type 2 diabetic versus non diabetic control subjects.
This is a multi-center, prospective evaluation of left ventricular recovery on conventional therapy in patients with the recent onset of dilated cardiomyopathy. In some subjects with this disorder, the heart will recover significantly over the first year, while others will be left with a chronically weak heart. The proteins that help the heart recover are encoded by genes, which can differ markedly between individuals. The goal of the current study is to determine whether variation in these genes involved affect the probability that the heart will recover. We will also look at which genes are involved in inflammation and which ones are "turned on" (producing proteins) in circulating white blood cells.{These statements will only be added if the site has chosen to participate in RNA analysis}. In addition, this study will look at how levels of proteins in the blood, proteins called "cytokines' which control inflammation and proteins called "neurohormones" which are released when the heart weakens, affect the likelihood of recovery. Enrollment will take place at 15 centers. The goal is to enroll approximately 500 adult subjects (age 18 years or older, both men and women) over the course of approximately 48 months.
The purpose of this study is to determine if an 8hr infusion of nesiritide in the emergency department in the Acutely decompensated heart failure patients will decrease 30 day recidivism.
The following objectives were used for comparison: 1) primary objective: reintubation rate during hospitalization; 2) secondary objectives: length of hospitalization at the Coronary Care Unit; time from intubation to start of weaning; time from start of weaning to extubation; time from SBT and extubation; presence of respiratory infection in patients requiring reintubation; mortality of patients requiring reintubation.
Aim of this study is to define the possible detrimental effect of a lack of growth hormone, on the well-being and life expectation of patients affected by heart failure.