Active clinical trials for "Cardiomyopathy, Hypertrophic"

The purpose of the study is to determine whether the ability of MEK162 to antagonize MEK activation in NS HCM patients, who usually have upstream mutations in the Ras-Raf-Mek-Erk pathway that lead to MEK activation, would be beneficial over a 6 month treatment period in hypertrophy regression.

First, investigators must determine the physiological standards across age classes of myocardial stiffness estimated by Elastography in ultrafast (estimated right ventricular stiffness [VD] and left ventricular [LV]). This will be done in groups of children without heart condition, age group (10 children per group, four age groups [0-1mois, 1 month-1 year 1 year-5 years, 5 years-15years]). Secondly, investigators will evaluate myocardial stiffness Elastography (RV and LV) on different groups of children (same age group) with cardiomyopathy and examine correlations with the conventional parameters of systolic and diastolic function of both ventricles and with myocardial strain values. The total population of the study will be 120 children (40 healthy, 80 patients).

Cardiomyopathies are diseases of the heart muscle. Known genetic factors may account for some cardiomyopathy cases but there is still much to understand about the genetic and environmental causes and how the disease progresses. Finding new ways to diagnose and treat cardiomyopathies could improve the health and well-being of patients with these conditions. This study will collect data from individuals with cardiomyopathy or related heart muscle disease, or with a possible genetic predisposition to cardiomyopathy, and follow them over time to observe the progress of their heart and health. This study will collect DNA, blood samples, and detailed clinical & lifestyle information at the start of the study, and data collected during routine healthcare visits over time. learn what causes cardiomyopathy, and therefore how to treat it understand why cardiomyopathy progresses differently in different people, to improve the ability to recognise who will benefit from different treatments at different times The investigators will collaborate with other centres internationally to collect a large of group of participants with similar cardiomyopathies, providing power to identify new pathways that cause disease and ways of predicting which participants are at risk of having more severe disease.

The objective is to determine whether 99Technetium-NC100692 uptake in patients with ACS (MI) can serve as a marker for scar formation as detected by contrast-enhanced MRI during the process of myocardial remodelling after the ischemic insult. Comparison of ACS and HCM Populations: The primary objective is to determine whether TcNC100692 imaging is able to quantify the extent to which myocardial fibrogenesis occurring early post myocardial infarction differs from that in patients with hypertrophic cardiomyopathy. The primary hypothesis is that since fibrogenesis is known to occur most intensely in the first days to weeks post myocardial infarction, while it is a more protracted, less predictable process in HCM, there will be significantly more TcNC100692 uptake in the early post-ACS population than in the HCM population. Control Population: Normal control images will allow for differentiation of uptake in the myocardium.

The overall aim of this project is to establish potential benefits of a novel lifestyle (physical activity and dietary nitrate) and pharmacological (angiotensin receptor neprilysin inhibitor) interventions in patients with hypertrophic cardiomyopathy (HCM). HCM is the most common genetic cardiovascular disease with a broad spectrum of disease severity. Angiotensin receptor neprilysin inhibitor reduces death, hospitalisation, and may improve cardiac function and exercise tolerance in heart failure. Exercise training is associated with a significant increase in exercise tolerance, but appear to have limited effect on measures of cardiac morphology or function in patients with HCM. Dietary supplementation with inorganic nitrate (i.e. concentrated nitrate-rich beetroot juice) improves exercise capacity, vasodilatation and cardiac output reserves while reduces arterial wave reflections, which are linked to left ventricular diastolic dysfunction and remodelling. Using a five-centre, open label, three-arm, pilot design, the present study will evaluate the effect of lifestyle (physical activity and dietary supplementation with inorganic nitrate) and pharmacological (angiotensin receptor neprilysin inhibitor sacubitril / valsartan) interventions in patients with HCM. The Aim is to examine whether these interventions improve functional capacity, clinical phenotypic characteristics, and quality of life in patients with HCM.

Aims and objectives: The primary objective of this study is to assess whether a structured exercise program improves cardiac relaxing properties in patients with hypertrophic cardiomyopathy (HCM). Background: HCM is a hereditary disease in which the myocardium becomes thickened without an identifiable cause (other than genetic). It is the most common genetic cardiovascular disease with an estimated prevalence of 1/500 (i.e. 10.000 affected individuals in Denmark). The majority of patients with HCM suffers from shortness of breath and reduced exercise capacity due to increased left ventricular (LV) stiffness. Exercise training has been shown to improve exercise capacity and symptoms in patients with HCM, but the mechanisms responsible for this improvement are not known. Methods and materials: The study is a randomized, single blinded, prospective, controlled clinical trial. Eighty patients are recruited from outpatient clinics in the Capital Region of Denmark. Patients are randomized in a 1:1 ratio to 12 week of moderate-intensity exercise training or usual activity level. Assessments will include right heart catheterization, echocardiography, cardiopulmonary exercise testing, blood-samples, quality of life, and, in a subgroup of patients, cardiac magnetic resonance imaging. The primary end-point is change in LV filling pressure assessed as pulmonary capillary wedge pressure at 25 W workload. Expected outcome and perspectives: The investigators hypothesize that an exercise training program will reduce cardiac stiffness and improve symptoms in patients with HCM. Training of HCM patients has long been debated and the topic is poorly researched. The effects of exercise on hemodynamics in HCM patients are unknown and a better understanding of these mechanisms is pivotal for improving treatment.

The purposes of this study are to: Learn about the safety of CK-3773274 after a single dose and multiple doses in healthy subjects. Learn how healthy subjects tolerate CK-3773274 after a single dose and multiple doses. Find out how much CK-3773274 is in the blood after a single dose and multiple doses. Determine the effect of doses of CK-3773274 on the pumping function of the heart. Evaluate the effect of cytochrome genetic variants on how the body metabolizes CK-3773274. Evaluate the effect of a meal on how much CK-3773274 is in the blood in healthy adult subjects. Evaluate whether the amount of CK-3773274 in the blood is the similar for both the tablet and granules in capsule forms of the drug.

The purpose of RHYME is to evaluate the safety and efficacy of ranolazine in Hypertrophic Cardiomypathy patients with chest pain or dyspnea despite treatment with standard medical therapy. This is a small, pilot, open-label (non-randomized) study of an approved drug for the treatment of angina in a novel patient population (adult patient population with hypertrophic cardiomyopathy).

The investigators propose a pilot randomized controlled trial to determine the safety and potential benefits of moderate intensity exercise in patients with hypertrophic cardiomyopathy. The investigators hypotheses are that exercise parameters derived from a baseline cardiopulmonary exercise test will target an appropriately safe level of exercise intensity that will not cause significant arrhythmias or exacerbate symptoms and that exercise training for 4 months will result in significant improvements in peak oxygen consumption (peak VO2) and quality of life, with neutral effects on the clinical characteristics.

The purposes of this study are to: Learn about the safety of CK-3773274 after a single dose and multiple doses in Chinese healthy adult subjects. Learn how healthy subjects tolerate CK-3773274 after a single dose and multiple doses. Find out how much CK-3773274 is in the blood after a single dose and multiple doses. Determine the effect of doses of CK-3773274 on the pumping function of the heart. Evaluate the effect CYP2D6 genetic polymorphisms on how the body metabolizes CK-3773274.