View clinical trials related to Non-Dystrophic Myotonia.
Filter by:Non-dystrophic myotonias (MND) are rare neuromuscular diseases caused by mutations in the voltage-dependent channels of skeletal muscles, resulting in delayed muscle relaxation after voluntary contraction. They include various conditions such as congenital myotonia, congenital paramyotonia and sodium channel myotonia. The main characteristic is myotonia, muscle stiffness accompanied by pain, fatigue and weakness. Symptoms vary in intensity, and fluctuation complicates clinical assessment. Until now, no validated scale to assess the severity of myotonia is the subject of a consensus among neurologists. It therefore seems necessary to establish a scale to simply and quickly assess the severity of myotonia to fill this need. The areas of this future scale were identified by the study coordinator based on existing questionnaires and scales. These areas have been validated by a scientific committee composed of expert neurologists. The main objective of the study is to validate the adequacy and formulation of the scale questions by involving 10 patients who will complete the questionnaire twice to assess its fidelity. At the end of the study, the committee will exclude inappropriate questions. The goal is to create a reliable scale to assess the severity of myotonia.
In this clinical study, the aim is to investigate whether there is a difference in treatment of myotonia using two drugs. A difference there can justify the significantly higher cost when treated by Namuscla versus Lamotrigine. According to the current corona pandemic, the investigators designed an app to use for data collection in the study. The app also ensures that patients who live far from the clinic more easily can participate.
This is a clinical trial to determine if Lamotrigine is non-inferior to Mexiletine for the treatment of myotonia in patients with Non-Dystrophic Myotonia. Non-dystrophic Myotonia is a genetic condition for which there is no cure. It affects patients for the duration of their life and impacts work, leisure and can lead to significant morbidity. The study is a cross-over design - participants will be randomized to either lamotrigine or mexiletine first for 8 weeks and then swap over after a week wash-out to the other medication for a further 8 weeks. Participants and investigators will be blinded to the treatment schedule. 60 participants will recruited through the clinical service, national registry and national liaison.
In myotonia congenita (MC), mutations in the CLCN1 gene coding a key chloride channel expressed in muscle cells cause myotonia. On examination, the myotonia can be demonstrated as delayed muscle relaxation of muscle contractions after mechanical stimulations. Existing literature describe no muscle weakness in MC patients, however a recent muscle MRI study in non-dystrophic myotonia patients found structural abnormalities in affected muscles when examined using T1 and STIR imaging. The question remains whether the signs of structural changes in the muscle are merely due to the myotonia, or long-term effects of elevated stress of the tissue, and if so, whether those changes lead to clinically significant loss of contractile properties of the muscle. This study examines if the contractile properties of myotonic muscles are impaired in MC patients. 40 patients with Thomsens disease (n=20) and Beckers disease (n=20), respectively, will be included along with 20 healthy controls. Peak muscle torque is measured in the hand by hand dynamometer and in the thigh and calf muscles with a Biodex System 4 Pro Dynamometer and the cross-sectional area of the muscles are examined on T1-weighed and Dixon-MRI-scan. With the obtained data peak torque in strength tests, muscle hypertrophy, fat fraction in muscle tissue and contractility of the muscles, compared with healthy controls, will be assessed.
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.
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.