View clinical trials related to Myotonic Dystrophy.
Filter by:Congenital Myotonic Dystrophy (CDM) is a multi-systemic, dominantly inherited disorder caused by a trinucleotide repeat expansion (CTGn) in the DMPK gene. CDM occurs when the CTGn increases between the adult myotonic dystrophy type-1 (DM1) parent and the child. Children with CDM present at birth with respiratory insufficiency, talipes equinovarus, feeding difficulties and hypotonia. There is a 30% mortality rate in the first year of life. As children grow, they are at risk for intellectual impairment, autistic features, gastrointestinal symptoms, and motor delay. The investigators will enroll children with CDM between ages 0-15 with visits at baseline and one year to evaluate appropriate physical functional outcomes, cognitive function and quality of life over time. Functional outcome measures will be correlated with potential biomarkers in the children. Completion of these specific aims will extend the understanding of disease progression in CDM and will provide the requisite information for successful therapeutic trials in children with DM.
Steinert's disease is an orphan disease. The prognosis of patients with this disease is conditioned by cardiac involvement. Search an early stage alterations in contractile function in subjects suffering from dystrophy would detect patients at risk of sudden death. The first stage of work is to validate the tools to detect early stage of infringement systolic function in a population of patients with myotonic dystrophy.
It has been suggested that patients with Myotonic Dystrophy type 1 have primary altered ventilatory response to chemical stimuli and chronic hypoventilation is related not always to muscle weakness. Also, it is known that Non Invasive Mechanical Ventilation can improve ventilatory response to chemical stimuli, especially to hypercapnia. This study evaluates the effect of Non Invasive Mechanical Ventilation on ventilatory response in patients with Type 1 Myotonic Dystrophy, the ventilatory response to chemical stimuli will be measured before and after mechanical ventilation in patients with myotonic dystrophy type 1.
The purpose of this study is to determine whether Tideglusib is safe and efficacious in the treatment of adolescents and adults with congenital and juvenile-onset Myotonic Dystrophy. The pharmacokinetics of tideglusib and its primary metabolite will also be investigated.
PhenoDM1 will use patient reported outcomes to assess levels of pain, fatigue and quality of life in this cohort. Clinical and functional outcomes will look at muscle wasting and levels of myotonia. DNA, RNA, serum and CSF samples will be taken from all patients so that additional genetic and molecular biomarker analysis can be carried out. A subset of patients will undergo detailed sleep studies along with skeletal muscle MRI of the lower limbs. This study will complement the work of other groups currently looking at myotonic dystrophy type 1 using the same outcomes and measures where possible.
The natural history of brain affection in myotonic dystrophy types 1 and 2 is still unknown. The investigators designed a 5-year longitudinal neuropsychological and neuroimaging follow-up study to address this issue. Myotonic dystrophy type 1, myotonic dystrophy type 2 patients, and healthy controls were enrolled. All participants undergo clinical-neurological examinations, neuropsychological analyses according to a 13-item neuropsychological test battery, and 3T-brain MRI including voxel-based morphometry and diffusion tensor imaging at baseline and at follow-up using identical examination protocols.
The aim of the project is to develop new Magnetic Resonance (MR) imaging techniques for better diagnosis and monitoring of patients with muscular disorders. Muscle quality in patients with Late Onset Pompe Disease (Acid Maltase Deficiency type 2) and in patients with Myotonica Dystrophy will be evaluated, by determining muscle strength in relation to muscle size and muscle strength in relations to fat-muscle ratio.
Human induced pluripotent stem cells (hiPSCs) have driven a paradigm shift in the modeling of human disease; the ability to reprogram patient-specific cells holds the promise of an enhanced understanding of disease mechanisms and phenotypic variability, with applications in personalized predictive pharmacology/toxicology, cell therapy and regenerative medicine. This research will collect blood or skin biopsies from patients and healthy controls for the purpose of generating cell and tissue models of Mendelian heritable forms of heart disease focusing on cardiomyopathies, channelopathies and neuromuscular diseases. Cardiomyocytes derived from hiPSCs will provide a ready source of disease specific cells to study pathogenesis and therapeutics.
The Myotonic Dystrophy Family Registry (MDFR) is an online, patient-entered database that collects information on myotonic dystrophy (DM) to aid researchers in developing new, effective treatments and help identify participants for research studies and clinical trials.
Up to one-third of patients with myotonic dystrophy type 1 die suddenly mainly from arrhythmias. Sleep apnea is prevalent in myotonic dystrophy (DM1) patients. Among the serious complications from sleep apnea, the most alarming are arrhythmias and sudden cardiac death (SCD). Diagnosis of sleep apnea using simple tools in ambulatory cardiology practice may improve therapy of cardiac arrhythmias in patients with DM1