View clinical trials related to Cardiomyopathy, Dilated.
Filter by:This study seeks to discover clinically useful tests to improve the diagnosis of a rare and serious heart muscle disease caused by mutations in a gene called 'Lamin'. Patients born with lamin gene mutations have apparently healthy hearts initially, they begin experiencing symptoms in their twenties or thirties, and by age 45 the majority have undergone a heart transplant, experienced a major cardiac complication, or have died. Sudden heart rhythm abnormalities are a major cause of sudden death so earlier diagnosis can save lives by enabling timely treatment or implantation of specialised pacemakers (defibrillators). In clinical practice, diagnosis of lamin heart disease currently relies on the genetic test. Very little is known about the detailed imaging features of the hearts of patients with lamin heart disease although advanced echocardiography and cardiac MRI now offer the opportunity to study the health of the heart without the need for radiation.
Finding new ways to diagnose and treat Dilated Cardiomyopathy (DCM) could improve the health and well-being of patients with this condition. The main aim of this research study is to help develop better ways of diagnosing and treating patients with DCM. The information that is collected may help develop tailored treatments for patients with this disease in the future. This research study will recruit patients with DCM from a number of centres across England and follow their health over a period of years. Patients will give some blood samples for a type of genetic test called whole genome sequencing (WGS) to look for genetic changes. Patients will also have a magnetic resonance imaging (MRI) scan of their heart to look for any changes in the heart such as scarring, and check their heart function. The aim of this study is to discover if using WGS and MRI can improve the diagnosis of DCM. Another aim of the study is to look at how genetic changes and scarring in the heart may affect the progress of the disease. Studying patients with DCM may also help the investigators learn more about diagnosing and treating other diseases of the heart. The second aim of this study is to see whether using WGS and MRI scanning can also be useful in other types of heart diseases which might be affected by genetic changes or scarring in the heart.
The overall aim of the project is to test the feasibility and safety of allogeneic adipose-derived stromal cells (CSCC_ASC) investigational medicinal product, to improve myocardial function in patients with non-ischemic dilated cardiomyopathies (NIDCM) and heart failure.
This study aimed to use cardiac magnetic resonance imaging (CMR) to evaluate the efficacy and safety of bisoprolol therapy for boys with Duchenne muscular dystrophy(DMD) and preserved ejection fraction. On top of angiotensin-converting enzyme inhibitor (ACEI) , half of the participants will receive bisoprolol in combination, while the other half will not receive any beta-blocker.
DCM Support is recruiting patients with dilated cardiomyopathy and heart failure symptoms. The goal of this clinical trial is to examine whether treatment with a patient's own stem cells can improve their heart function and alleviate heart failure symptoms. - Stem cells will be collected from bone marrow in the patient's hip under local anaesthetic. - The stem cells will be infused into the arteries that supply blood to the heart under local anaesthetic. - A mini heart pump will be used to take the strain off the heart during the procedure. - The follow-up involves a phone call at 1 month and clinic visits at 3 and 12 months
RIKADA is a prospective study performing systematic family screening including clinical and genetic testing in pediatric patients with primary cardiomyopathy and their first-degree relatives with the aim to facilitate risk stratification.
Long-term prognostic value of macrovascular and microvascular coronary artery stenoses in each type of cardiomyopathy.
This is a purely observational project and the objectives are to record and analyze the local potentials at the site of Premature Ventricular Contraction (VPC) focus through the Rhythmia system, ti determine the short and long-term success of the procedure and compare it to the existing literature about standard procedures, to highlight the advantages of the system compared to conventional mapping and to characterize optimal pace map or activation map as achieved by the Rhythmia system.
Retrospective cohort study including patients with genetically proven Duchenne muscular dystrophy, diagnosed from January 1993 to March 2020. Inclusion of the data relative to genetic diagnosis, clinical characteristics at baseline, cardiac and respiratory workup, medical treatments (ACE inhibitors, steroids), surgical procedures, and occurrence during follow-up of cardiac, respiratory and fatal events. Objectives are to describe long-term natural history of the disease, vital prognosis, genotype-phenotype correlations, effect of treatments.
Duchenne muscular dystrophy (DMD) is a devastating X-linked disease which leads to loss of ambulation between ages 7 and 13, respiratory failure and cardiomyopathy (CM) at any age, and inevitably premature death of affected young men in their late twenties. DMD is the most common fatal genetic disorder diagnosed in childhood. It affects approximately 1 in every 3,500 live male births across all races and cultures, and results in 20,000 new cases each year worldwide.Significant advances in respiratory care have unmasked CM as the leading cause of death. As there are yet no specific cardiac treatments to extend life, the current study aims to address this unmet medical need using a new therapeutic strategy for patients with DMD. Funding Source - FDA OOPD