View clinical trials related to Cardiomyopathies.
Filter by:Hypertrophic cardiomyopathy (HCM) is an autosomal dominant disease characterized by unexplained hypertrophy of the left ventricle, often with predominant involvement of the interventricular septum, and characterized by myocyte disarray and fibrosis. HCM is the most common familial heart disease with strong genetic heterogeneity, demonstrated over the past 20 years. Mutations in 11 or more genes encoding proteins of the cardiac sarcomere are responsible for (or associated with) HCM. However, 30-40% of sporadic and familial cases of HCM are still genetically unlabelled. In addition, secondary HCM caused by Fabry's disease or amyloidosis, may mimic primary HCM and may be under diagnosed. This may result in a delay in accurate diagnosis and instauration of specific treatment, with possible clinical consequences for the patients. For these reasons, we decided to apply a new diagnostic strategy for patients with newly diagnosed HCM, including the whole exome sequencing (WES) technology. If correctly applied, this new technology has the potential to strongly reduce the diagnostic wavering leading to earlier diagnosis and genetic counseling in sarcomeric HCM and rarer forms of secondary HCM including Fabry's disease and amyloidosis, and also specific therapy set-up in secondary forms of HCM. It should also allow identifying new genes responsible for HCM.
Vitamin D deficiency could be a high risk for cardiovascular diseases. It has been recently reported that vitamin D deficiency is another cause of heart failure and cardiomyopathies. It was found that vitamin D supplementation improved the heart function. The purpose of this study is to evaluate patients with idiopathic cardiomyopathies and determine whether vitamin D supplementation in cases where there is a deficiency, improves heart functioning.
The aim of this investigation is to evaluate the impact of exercise in a cardiac rehabilitation program on functional capacity, clinical markers, quality of life and biomarkers in patients with chronic chagasic cardiomyopathy.
Due to the lack of information in the literature about the role of cardiac rehabilitation on Chagas heart failure, the aim of the present study was to evaluate the effects of a cardiac exercise program on functional capacity, cardiac function, respiratory muscle strength, body composition, biomarkers and quality of life among Chagas heart failure patients.
The primary purpose of this study is to examine the safety and feasibility of delivering allogeneic human mesenchymal stem cells (allo-MSCs) by transendocardial injection to cancer survivors with left ventricular (LV) dysfunction secondary to anthracycline-induced cardiomyopathy (AIC). The secondary purpose of this study is to obtain preliminary evidence for therapeutic efficacy of allo-MSCs delivered by transendocardial injection to cancer survivors with LV dysfunction secondary to AIC.
Background: It is still difficult to predict the outcome in patients requiring Fontan Revisions and in those who have evidence of congestive hepatopathy and probable cirrhosis requiring major cardiac surgery including heart transplant. Over the years, many prognostic indices have been derived from laboratory results of blood tests, clinical and physiological variables (or some combination thereof), from liver imaging to liver histology, which has issues of sampling error, medical risks and technical difficulty. None of these have proved entirely satisfactory. Predicting morbidity or survival is particularly important when deciding about Fontan revisions versus the need for heart transplantation. What is needed here is a truly reliable test of liver function that can help predict outcome, on the basis of a single measurement within few days of a planned revision. For this purpose, it is desirable that the chosen tests of liver performance be safe, non-invasive, easy to perform, have a rapid turnaround for results, and be readily repeatable. Tests of hepatic elimination of various exogenous substances have been described, such as galactose elimination capacity (GEC), indocyanine green (ICG) clearance, lidocaine metabolism to monoethylglycinexylidide (MEGX), and other tests that rely on liver metabolic capacity. None of these metabolic or clearance tests achieved widespread acceptance or use, mostly because their performance and analyses were cumbersome. HepQuant,LLC has developed a platform of tests of liver function which include Systemic Hepatic Filtration Rate (HFR), Portal HFR, SHUNT, and Disease Severity Index (DSI)1,2. HepQuant tests specifically target the hepatic uptake of cholate and use a single noninvasive test of 90 minutes duration to quantify the systemic circulation, portal circulation, and portal-systemic shunt and to derive a DSI in intact human subjects. HepQuant tests can assess all stages and etiologies of liver disease. In chronic HCV patients HepQuant testing can predict which patients will respond to antiviral therapy and can measure the improvement in hepatic function that occurs after successful antiviral therapy. Patients who did not respond were followed for an average of 5 years and up to 8 years, and baseline HepQuant testing could predict clinical outcomes (CTP progression, variceal bleeding, encephalopathy, ascites, liver-related death) with 87% sensitivity and 71% specificity.
The objective of ESCAPE-SCD Study is assessment of the effect of sleep apnea on sudden cardiac death risk and cardiovascular outcomes in patients with ischemic cardiomyopathy. The ESCAPE - SCD Study will address following specific study questions: - Is obstructive sleep apnea (OSA) and/or central sleep apnea (CSA) an independent risk factor of sudden cardiac death (SCD) in patients with ischemic cardiomyopathy (ICM) indicated for ICD/CRT-D implant based on current European Society of Cardiology (ESC) Guidelines for primary prevention of sudden cardiac death? - Can treatment of predominant (>50%) obstructive sleep apnea by appropriate Positive Airway Pressure (PAP) therapy decrease risk of sudden cardiac arrhythmic death in ICM patients? - Can treatment of predominant (>50%) obstructive sleep apnea by appropriate PAP therapy improve cardiovascular outcomes in ICM patients indicated for ICD/CRT-D implant? - Does obstructive sleep apnea represent a novel factor that may improve risk stratification of sudden cardiac death and advance identification of those patients that will benefit from ICD/CRT-D therapy?
The purpose of the present study is to evaluate the efficacy of the preconditioned autologous bone marrow mesenchymal stem cells for patients with ischemic heart diseases.
This is a phase II, randomized, placebo-controlled clinical trial designed to assess feasibility, safety, and effect of autologous bone marrow-derived mesenchymal stem cells (MSCs) and c-kit+ cells both alone and in combination (Combo), compared to placebo (cell-free Plasmalyte-A medium) as well as each other, administered by transendocardial injection in subjects with ischemic cardiomyopathy.
Hypertrophic cardiomyopathy (HCM) is a primitive myocardic disease and the first of genetic cardiac diseases. The definition of HCM is an increase of the myocardial thickness of the left ventricle (LV) wall without any other causes of hypertrophy. It's characterized by an important heterogeneity of prognosis and clinical expression going from a asymptomatic state until the devastating sudden death occurring in a young person.The diagnosis of HCM is definite by a myocardial thickness greater or equal to 15mm (or 13mm if there is a familial history).This hypertrophy is often accompanied by other abnormalities detected by echocardiography: dynamic left ventricular outflow obstruction at rest or stress, mitral regurgitation …Now, the current challenge is to determine the prognosis factors of the disease that could help to identify the patients with high risk of sudden death. Some prognosis factors are knowed and used in the calculation of a new risk score. This risk score allows to estimate the risk of sudden death at 5 years and propose depending on the result, the implantation of a defibrillator for primary prevention.The physiopathological mechanism of HCM is very complex and still misunderstood. Myocardial fibrosis could be a major mechanism of the disease evolution. Indeed, fibrosis is responsible of scar areas where ventricular tachycardia may develop. Moreover, if the fibrosis is very extensive, it can be the responsible of a systolic or diastolic dysfunction of the left ventricle leading to heart failure.Myocardial ischemia caused by a microvascular dysfunction is now recognized as an important mechanism of the disease evolution. Acute ischemic events could be a trigger of malignant arrhythmia whereas chronic ischemia leads to fibrosis.Left ventricle function is long time preserved in HCM. Segmentary hypokinesia corresponding to extensive fibrosis appears at a very advanced stage of the disease. Exercice stress echocardiography permits to detect myocardial ischemia caused by microvascular dysfunction in the HCM before the fibrosis apparition. Moreover the investigators suggest to study the deformation parameters by speckle tracking or 2D strain witness of a contractile LV dysfunction before the apparition of segmentary hypokinesia.Magnetic resonance imaging (MRI) is now recognized as the more sensible technique to identify focal myocardial fibrosis resulting in areas of late gadolinium enhancement (LGE). LGE is frequent in HCM and his extension is correlated with the severity of the hypertrophy and the risk of sudden death. Myocardial ischemia is detected by hypoperfused defects in the perfusion sequences and as LGE, is correlated with the degree of hypertrophy. Some studies using stress MRI with vasodilatator agent show inductible hypoperfused areas correlated to the degree of hypertrophy. T1 mapping is a new hopeful sequence of MRI permitting to detect the diffuse and early myocardial fibrosis. Some studies show that T1 mapping values are reduced in the areas of LGE in HCM but also in areas without LGE which reflects the presence of new fibrosis.The objective of study is to compare these two imagery techniques in order to detect ischemia and fibrosis. These techniques are usually used in the diagnosis or the monitoring of the disease. The investigators propose to realize an exercise stress echocardiography to study: the segmentary kinetic of the left ventricle and the 2D strain and a stress MRI to study the LGE, the stress perfusion and the T1 mapping.Actually the investigators consider that LGE is a risk factor of the disease (although not yet involved in the calculation of the risk of sudden death) and need to be study in each MRI realized for HCM. From the same way, the investigators suggest to follow patients to determine if the abnormalities detected by these two techniques and particularly 2D strain abnormalities, stress myocardial ischemia and T1 mapping abnormalities are prognosis factors of the disease and appear more precociously than LGE.