View clinical trials related to Myotonia.
Filter by: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.
Treatment strategies in non-dystrophic myotonias are based on selective case reports, clinical experience and theoretical benefit. Presently, the most promising antimyotonic medication is mexiletine (MEX) but its manufacturing was stopped. The proposed randomized, double-blind, placebo-controlled, crossover trial is designed to: 1. study the safety and efficacy of mexiletine for the treatment of non-dystrophic myotonias 2. validate electromyographic tests as a standardized outcome measure of myotonia 3. assess the reliability and validity of a new clinical rating scale for myotonia
The purpose of this study is to gather preliminary data to determine if ranolazine is a safe and effective treatment for the symptoms of myotonia congenital, paramyotonia congenita, and myotonic dystrophy type 1. The duration of the study is 5 weeks.
Investigators aimed to investigate whether training can increase fitness levels in patients with myotonia, and thereby reduce the symptom of myotonia.
The main objective of this study is to explore whether multiple trials with individual patients (N-of-1 trials) can produce a reliable evidence base for coverage decisions on clinical and cost-effectiveness of drug treatment for patients with rare diseases. As a case study, we will study the clinical and cost-effectiveness of Mexiletine in patients with Non-Dystrophic myotonia. The results of this analysis will be compared with the results obtained from a recently published international, multi-centre, randomized, placebo-controlled trial of Mexiletine in patients with Non-Dystrophic Myotonia (clinicaltrials.gov Identifier: NCT00832000). The secondary objective of this proposal is to assess whether mexiletine improves myotonia measured (both quantitatively and qualitative) in patients with non-dystrophic myotonia.
Myotonia is a functional limiting symptom where the muscle stiffens on action leading to arrest of movement. Pharmacological treatment may make the difference between a physically restricted and a normal life. Today, patients with myotonia are treated with Mexiletine a medications resulting in adverse events up to 40 % and which very expensive and difficult to obtain. Our clinic has, forced by the above problems related to Mexiletine, treated a few patients with the drug Lamotrigine with pronounced positive effect in all. Lamotrigine belongs to the same category of drugs as Mexiletine but has fewer and milder side effects. Based on the similarities of the 2 drugs in pharmacological action and the positive experiences investigators are convinced that Lamotrigine will show a positive effect if evaluated in a broader scale. Due to the advantages of Lamotrigine compared to Mexiletine investigators find it of outmost importance for patients that this drug is assessed formally to establish Lamotrigine as a treatment choice for myotonia. Investigators believe that this will potentially make a huge difference in life quality for persons with myotonia. Investigators aim at investigating the efficacy and tolerability of Lamotrigine in the treatment of myotonia in a randomized doublet blinded placebo controlled crossover study.
Nondystrophic myotonias (NDM) are neuromuscular disorders caused by genetic abnormalities in certain muscle cell membrane proteins. The proteins affect muscle contraction. Individuals with NDM experience limited muscle relaxation, which then can cause pain, weakness, incoordination, and impaired physical activity and function. Because NDM is very rare, information on the best way to treat people with the disorders is lacking, and there are no FDA-approved therapies. The purpose of this study is to determine the effectiveness of the medication mexiletine in treating people with NDM.
Background: Myotonic dystrophy lead to highly heterogeneous, multisystemic symptoms including myotonia, progressive muscle weakness, cardiac conduction defects, cataract, metabolic dysfunction, and excessive daytime somnolence. This last symptom is related to respiratory failure and/or to involvement of the central nervous system. However the metabolic disturbances could contribute to it. From the respiratory point of view this disease is characterised by the progressive appearance of respiratory failure of muscular origin but mainly associated with a defect in the central respiratory drive. The treatment for this hypoventilation is non-invasive ventilation (NIV). It is not currently absolutely clear as to the best choice of criteria to judge long term effectiveness of NIV. The most usual criteria are normalisation of daytime blood gases, diminution of respiratory work, improvement in daytime symptoms and improvement in sleep structure. Other criteria are currently little studied, for instance the contribution of the interaction between alveolar hypoventilation and oxygen desaturation during the night and biological deficiencies such as systemic inflammation, glucose intolerance or insulin resistance. Likewise there is little information about the interaction between alveolar hypoventilation and endothelial dysfunction and arterial stiffness both being accurate predictive factors for cardiovascular risks. Aim: to evaluate the impact of NIV on endothelial dysfunction in patients with myotonic dystrophy. The secondary objectives are to assess the impact of NIV on systemic inflammation, arterial stiffness, insulin-resistance, quality of sleep, and daytime vigilance in these patients. Methods: Patients with chronic alveolar hypoventilation already treated by long term NIV will be included. They will have an initial check-up (Visit 1), then will interrupt NIV treatment for four weeks (Visit 2), and then return to NIV treatment. The last check-up will be done four weeks after NIV resumption (Visit3). Expected results: It is expected that NIV withdrawal will results in a deterioration of cardio-vascular parameters (endothelial function and arterial stiffness), metabolic parameters (insulin-resistance and systemic inflammation), quality of sleep and daytime vigilance. Return to NIV treatment may show an improvement of these parameters with a basal state recovery.
Nondystrophic myotonias (NDM) are muscle disorders caused by genetic abnormalities in certain muscle cell membrane proteins. Individuals with NDM experience limited muscle relaxation, which causes pain, weakness, and impaired physical activity. The purpose of this study is to better characterize the clinical features and symptoms of NDM.