View clinical trials related to Cardiomyopathy, Familial.
Filter by:Background A specific mutation in phospholamban (the PLN R14del mutation), has its origin in the northern parts of the Netherlands (Figure) and causes a severe lethal dilated and/or an arrhythmogenic cardiomyopathy. A large proportion of the population of Groningen (1:1000) carries this mutation. Until now, there is no specific treatment available for patients with PLN cardiomyopathy. Patients are treated like any other type of heart failure patients, although PLN cardiomyopathy has a different etiology from "usual" heart failure. Treatment is therefore insufficient; malignant ventricular arrhythmias and end-stage heart failure at a young age are very prevalent. To develop treatment options, the investigators aim to study the following knowledge gaps: - Pathophysiology. The clinical phenotype of PLN R14del cardiomyopathy bears characteristics of both arrhythmogenic and dilated cardiomyopathy (ACM and DCM). Using an "omics" approach of plasma, cardiac and skeletal muscle of patients and controls, the investigators aim to reveal distinct pathways affected by the mutant PLN, unique to the PLN R14del cardiomyopathy. This will be related to clinical data and mutant PLN expression levels in both cardiac and skeletal muscle biopsies. Using this extensive profiling, the investigators aim to identify disease mechanisms and provide the context for future risk stratification and disease progression monitoring. - Penetrance. Subjects with a heterozygous PLN R14del mutation show a wide variety in phenotype. Within the same family, patients can present either with over heart failure in their 20's or completely asymptomatic until at least their 70's. So far, no modifiers have been identified. The investigators will study cardiomyocytes derived from induced pluripotent stem cells from patients who are severely affected versus family members who are unaffected but carry the mutation. - Treatment response. The investigators have identified potential treatments, and confirmed their efficacy in in vivo models of PLN cardiomyopathy. To establish their efficacy in a human setting, the investigators will generate 3D cardiac tissues of cardiomyocytes gathered from induced pluripotent stem cells of patients affected in varying degrees and subject these tissues to the treatment. Methods: For the above purposes, the investigators will collect and analyze the following data/materials: - Serum and plasma of 90 PLN R14del carriers: 30 unaffected, 30 early affected and 30 end stage. - Skin biopsy of 20 PLN R14del carriers: 10 unaffected, 10 end stage. - Cardiac muscle biopsy (obtained during left ventricular assist device [LVAD]/ heart transplant [HTx] surgery) of 30 patients: 10 R14del, 10 arrhythmogenic cardiomyopathy, 10 dilating cardiomyopathy. - Skeletal muscle biopsy of 10 patients: 5 R14del, 5 non R14del family members
Interventional, cross-sectional biomedical study of children with genetic cardiomyopathy and healthy children. The aim is to generate, via induced human pluripotent stem cells (hiPSC), "patient-specific" cardiomyocytes (CMs) (hiPSC-CMs) to study the molecular mechanisms of cardiomyopathies of genetic origin.