View clinical trials related to Cardiomyopathy, Dilated.
Filter by:According to the high morbidity and mortality of idiopathic Dilated CardioMyopathy (IDCM) in pediatric, new modality of treatment is emerging. There are some case reports of administration of stem cell therapy. The investigators design the first randomized clinical trial in this setting. The investigators enroll 32 pediatric IDCM patients in two groups (16 pts. in each group including cell therapy and control). The investigators assess the safety and efficacy of intracoronary transplantation of autologous bone marrow derived mononuclear cells in this patients compared to control group.
The goal of REMEDIUM project is to develop personalized stem cell therapy for patients with chronic heart failure due to dilated cardiomyopathy (DCM). The main focus of the project is (1) on repetitive administration of cell therapy that would allow for long-lasting improvements in heart function and outcome in this patient population. In parallel, the investigators aim to (2) develop a standardized patient-specific stem cell product that could be cryopreserved and stored in a stem cell bank for prolonged time periods, and used for therapeutic application when clinically indicated. By using a unique multimodality imaging platform, the goal of this project is also to (3) define standardized clinical criteria that would serve as a guideline for evaluation of the effects of stem cell therapy in future clinical trials and everyday clinical settings. Finally, to improve the clinical implementation of cell therapy,the investigators aim to (4) develop a stem cell delivery technique that could be used to treat both left and right and ventricular failure and could be implemented in a standardized fashion designed for a widespread clinical use.
This study is a descriptive study to investigate clinical and genetic features of dilated cardiomyopathy (DCM) patients and their relatives. 109 probands with DCM have been clinically characterized with clinical examinations including ECG and echocardiography, and furthermore they have had next generation sequencing (NGS) of 42 known DCM genes, and 34 candidate genes. The probands were consequtively included in the study and 59 had undergone heart transplantation (HTx) upon inclusion. of these patients underwent heart transplantation. The data from NGS is validated by Sanger sequencing. In this study we will examine the relatives to the 109 index patients by genetic and clinical cascade screening including advanced echocardiography including 3D volume measurements and speckle-tracking (GLS). Genetic investigations of relatives will be performed if a disease-associated mutation is identifed in the proband. Approximately 480 clinical examinations will be performed this way to be able to: 1a. Investigate the frequency of familial types of DCM 1b. To investigate the yield of genetic and clinical cascade screening 2. To describe genotype phenotype correlations 3. To investigate if there are subtle changes in the heart in genopositive individuals which do not meet the conventional diagnostic criteria evaluated by advanced echocardiography.
Recent data suggest that areas of fibrosis and hibernating myocardium develop in patients with non ischemic dilated cardiomyopathy. Ranolazine is a new drug, developed to releave symptoms of angina in patients with stable coronary disease that is not suitable for surgical or percutaneous revascularization. It has been shown that in patients with stable coronary disease Ranolazine improves myocardial perfusion as shown with myocardial nuclear imaging. The aim of this trial is to evaluate effects of ranolazine on myocardial perfusion in patients with dilated cardiomyopathy.
This study aims to determine the effect of Coenzyme Q10 supplementation on conventional therapy of children with heart failure due to idiopathic dilated cardiomyopathy.
18F-fluorodeoxyglucose (FDG) positron emission tomography (PET) may have application in a promising tool for identification of myocardial inflammation in patients with dilated cardiomyopathy (DCM).Therefore, the purpose of the study is to confirm the hypothesis of the fixation of FDG in non cardiomyocyte cells in a number of patients with DCM, to specify the frequency and describe the different binding profiles in comparison with MRI data. Patients will perform an ethologic evaluation of a non ischemic DCM with in a cardiac MRI. All patients will have with in 4 weeks after the MRI a 18F-fluorodeoxyglucose (FDG) PET. A high fat and low carbohydrate diet and an heparin injection will be prescribed to patients before this FDG PET. Patients will be identified as FDG+ or FDG -. The clinical status of the patient will be completed by a 12 months evaluation.
The "EUropean Comparative Effectiveness Research to assess the use of primary prophylacTic Implantable Cardioverter Defibrillators (EU-CERT-ICD)" is a modular research project to study the effectiveness of prophylactic ICDs in a prospective study, a retrospective registry, and meta-analyses of existing evidence on the subject.
This is a Phase 2 pilot study, involving a 48-week treatment period, designed to test the effectiveness of investigational study drug ARRY-371797 in treating patients with symptomatic genetic dilated cardiomyopathy due to a lamin A/C gene mutation, and to further evaluate the drug's safety. Approximately 12 patients from the US will be enrolled in this study.
Detecting abnormalities in the left ventricular mechanical and hemodynamic response to the stress of exercise may offer early diagnostic indicators in patients suffering from valvular disease such as mitral regurgitation. Ultrasound-based imaging methods have been gaining importance in providing prognosis among those patients. However, decreased signal to noise ratio in the images and increased motion-related artifacts during exercise stress echocardiography have been reported, with a lack of reproducibility of results and a the limitation of its availability only in reference centers. In our laboratory, we are able to perform supine bicycle exercise MRI (1.5 T) using the Lode ergometer mounted on the far end of the patient table, previously described in healthy volunteers. The first aim of our study is to demonstrate the safety and the feasibility of our MRI protocol in selected patients with asymptomatic severe organic mitral regurgitation, to assess left ventricular volumes and function, and regurgitant volume in comparison to exercise cardiac echography. Besides, few recent studies sustain the relevance of novel markers of central aortic function (compliance, distensibility and pulse wave velocity) assessed by noninvasive MRI to explore vascular aging. In monogenic connective tissue diseases, altered arterial stiffness is the premature signature of the disease in asymptomatic patients. Noninvasive evaluation of aortic stiffness would be useful for risk assessment and preventive follow-up strategies in young asymptomatic relatives of subjects with aortic inherited diseases, such as syndromic and non-syndromic familial forms of thoracic aortic aneurysm and /or dissection. Furthermore, this technique should be able to evaluate the effect of drugs on aortic stiffness change in trials, before and after drug therapy, more relevant than the classic change in aortic diameter measurement. The second aim of our study is 1) to provide the sensibility of our MRI protocol to estimate local and regional heterogeneity in aortic functional parameters (distensibility, compliance and PWV) 2) to evaluate the predictive value of these regional aortic parameters assessed by MRI to diagnose and to stratify the aortopathy related to presymptomatic Marfan patients and to bicuspid aortic valve in young adults, in comparison to carotids-femoral pulse wave velocity estimation by applanation tonometry.
Rationale: Sudden cardiac death, mainly caused by ventricular arrhythmias (VA), is a major cause of morbidity and mortality in non-ischemic cardiomyopathy (NICM). Therapies that effectively prevent VA are lacking. Improved understanding of the substrate and mechanisms of VA in NICM may allow more effective, individualized and substrate-based therapies to be developed. In addition, risk stratification in NICM needs to be improved so that therapies can be allocated more efficiently. Objectives: 1) To improve our understanding of the underlying pro-arrhythmic substrate and electrophysiologic mechanisms of VA in NICM, and to develop individualized treatment for VA based on the identified substrate. 2) To improve risk stratification for VA and sudden cardiac death in NICM based on substrate characteristics. 3) to evaluate disease progression in NICM. Hypothesis: Improved understanding of the substrate and mechanisms of VA in NICM may allow more effective, individualized and substrate-based therapies to be developed. Study design: A prospective cohort study. Study population: The study population will consist of three groups (A, B and C): NICM patients with documented VA, suspected VA or intermediate to high risk for VA (according to established criteria) who are not referred for cardiac surgery (group A), NICM patients with documented VA, suspected VA or a high risk for VA who are referred for cardiac surgery (group B) and a control group consisting of patients without NICM who are referred for cardiac surgery (group C). Evaluation: All patients will be evaluated according to current standards for patients with NICM. Evaluation will include 24h-Holter, echocardiography, coronary angiogram and contrast-enhanced MRI (CE-MRI). If CE-MRI is performed in another hospital, additional recordings will be performed in our hospital. Additionally, blood samples (arterial, cardiac venous and peripheral venous) for collagen turnover markers will be taken from all patients. 123-iodine metaiodobenzylguanidine (123-I MIBG) imaging, electrophysiologic study and endomyocardial biopsy will be performed in group A and B. Intra-operative biopsy will be performed in group B and C. Intervention: In group B, intra-operative mapping and cryo-ablation and postoperative electrophysiologic study will be performed in patients with subepicardial late enhancement on MRI or induced VA suspected for an subepicardial origin. Main study parameters/endpoints: The main study parameters are extent, location and pattern of fibrosis on imaging and in biopsy specimens. The main study endpoints are inducibility of VA, type of induced VA, spontaneous VA and type of spontaneous VA.