View clinical trials related to Myotonic Dystrophy.
Filter by:Participants in this study will receive two treatments, placebo and ERX-963, on different days in a randomized fashion. The primary purpose of this study is to investigate the safety and tolerability of ERX-963 in participants diagnosed with Myotonic Dystrophy, Type 1 (DM1). The secondary purpose is to evaluate the potential of ERX-963 treatment to reduce excessive daytime sleepiness / hypersomnia and improve cognitive function in DM1 participants compared to placebo treatment.
Background: Myotonic dystrophy is a long-term genetic disorder that affects muscle function. Symptoms include gradually worsening muscle loss and weakness. Muscles often contract and cannot relax. Researchers want to find out how various tests for DM1 or DM2 change over 2 years, to help them develop better tests for people with these diseases. Data and samples from this study will be shared with the Myotonic Dystrophy Clinical Research Network (DMCRN) investigators participating in the ongoing Establishing Biomarkers and Clinical Endpoints in Myotonic Dystrophy Type 1 (ENDDM1) study Objective: To find better ways to assess how myotonic dystrophy type 1 or type 2 affects people. Eligibility: People ages 11 70 with DM1 or DM2 Design: Participants will have 3 study visits over 2 years. Participants may be admitted to the clinic. Each visit may last up to a week and will include: Medical history and physical exam Blood, heart, and pregnancy tests Questions about their disease Breathing and muscle tests, including tests of movement, grip, and hand opening Speech and swallowing exam Magnetic resonance imaging (MRI). Participants will lie on a table that slides into a cylinder. A magnetic field and radio waves will take pictures of the body. They may do a task during the scan. They may have a dye injected. Pictures of chemicals in the brain or muscle taken in an MRI scanner Thinking and memory tests Sleep studies. Electrodes placed on the scalp will record the electrical activity of the brain. Other devices on the body will measure heartbeat, breathing, movement, and oxygen. Tests of electrical activity of muscles. Participants move their arms and legs with disks stuck on their skin. Visits may also include: Exam by a physician expert in stomach and bowel disorders A piece of muscle and/or spinal fluid removed by needle Sponsoring Institute: National Institute of Neurological Disorders and Stroke ...
The aim of the study is to evaluate if the electrophysiological study (EPS) guided therapy, including the prophylactic implantation of implantable cardioverter defibrillator (ICD), in inducible patients, is able to improve survival in comparison with conventional therapy (CONV strategy) in Myotonic Dystrophy type 1 patients with conduction disorders.
The aim of this study is to determine the factors associated with alveolar hypoventilation in terms of cognitive impairment, daytime sleepiness, respiratory function, nocturnal respiratory events This evaluation will clarify the clinical phenotypes of respiratory disease in myotonic steinert dystrophy.
This is a randomized, multicenter, double-blind, placebo-controlled, Phase 2/3 study of patients (aged 6 to 16 years) diagnosed with Congenital Myotonic Dystrophy (Congenital DM1).
A monocentric, longitudinal, observational case-control study in patients with Myotonic Dystrophy type 2 (DM2). At least 60 DM2 will be evaluated through a battery of patients reported Outcomes (PROs) and clinical Outcome Measures (OMs), in order to define suitable OMs for DM2 and propose a disease specific severity scale. Patients will be re-evaluated after 6 months. An age and gender-matched control cohort will be assessed.
This project aims to characterize DM1 patients, by collecting clinical, neuropsychological, neuroimaging, and molecular rehabilitative data, in order to elucidate the etiology of cognitive troubles, with special attention to the impact of those dysfunctions on quality of life.
Investigators identified a high risk of deep vein thrombosis and pulmonary embolism in patients presenting myotonic dystrophy type 1 treated in our hospital, 10 times higher than general population matched on age and sex. These venous thromboembolic events were frequently severe and lethal. Investigators suspect that this high risk of venous thromboembolism is due to coagulation abnormalities specific to myotonic dystrophy type 1. The purpose of this study is to determine: 1/ if there is a hypercoagulable state in myotonic dystrophy type 1 by testing patient's coagulation, and 2/ if genes encoding factors involved in coagulation have modified expression resulting in this hypercoagulable state. Understanding the pathophysiology will help preventing venous thromboembolism in these patients. It is the first study to describe this specific issue.
The aim of this study is to quantify muscle relaxation properties of the finger flexor muscles in patients with different myopathies. The inhibiting effects of transcranial magnetic stimulation (TMS) on the cortical motor hand area are used to induce relaxation, which in turn will be monitored with handgrip dynamometry and EMG. The investigators will evaluate if this technique can be implemented as a diagnostic tool in clinical practice. Muscle relaxation is an often overlooked property of the muscle as compared to muscle strength or activation. Muscle relaxation is affected in different myopathies, such as myotonic dystrophy, non-dystrophic myotonias, and Brody myopathy. Therefore, a diagnostic tool to quantify muscle relaxation is of clinical and scientific importance. In this study, transcranial magnetic stimulation (TMS) is used, in combination with a dynamometer to quantify muscle relaxation properties. Transcranial magnetic stimulation (TMS) is a non-invasive technique that is commonly used to stimulate the brain. In practice, a circular coil is held directly above the scalp, upon which a strong current pulse induces a magnetic field that stimulates the underlying superficial brain areas. This stimulation can have both activating and inhibiting effects. When the motor cortex (i.e. the area of the brain that controls muscle contractions) is strongly stimulated with TMS during a voluntary muscle contraction, both excitatory and inhibitory effects can be observed in the muscle the targeted cortical area controls. The inhibitory effect entails a transient interruption of neural drive to the muscle. This interruption, called the "silent period", lasts for less than half a second and results in the relaxation of the muscle. Muscle activity and control quickly return to normal after the silent period. The elegance and main advantage of TMS-induced muscle relaxation lies in the fact that it excludes all voluntary influences on the relaxation process. Furthermore, the TMS pulse causes all muscle fibres involved in the contraction just prior to the onset of the silent period to relax simultaneously. This allows us to study muscle relaxation as only a property of the muscle, i.e. without voluntary influences. In this study, the investigators will measure muscle relaxation in several myopathies (McArdle disease, Nemaline myopathy type 6 and myotonic dystrophy type 2) and compare this to healthy controls and to controls with no myopathy but with similar complaints (myalgia, stiffness, cramps). The data from these two control groups has been gathered previously in a different study. The investigators will also compare this to patients suffering from Brody disease who were previously measured in a different study. Muscle relaxation will be evaluated in fresh and fatigued finger flexor muscles. The main outcome of this study is the peak relaxation rate normalized to the peak force preceding relaxation. The final outlook of this research is to evaluate whether muscle relaxation studied with TMS, can be used for different myopathies as a diagnostic tool, to monitor disease progression, and to study the effects of different interventions (e.g. medication, exercise).
The risk for venous thromboembolism (VTE) in DM1 and in other inherited myopathies, which can lead to chronic immobilization, are unknown. The purpose of this study is to evaluate incidence of VTE in cohort of patients presenting with DM1 with a comparison to a group of other inheritable myopathies and to a community-based population.