View clinical trials related to Muscular Diseases.
Filter by:This research aims to verify the effect of therapy called "tissue flossing" on the range of motion and examine the impact of this treatment on the Superficial fascial backline, described by Myers. The research aims to verify whether the thick rubber bands used to create a certain degree of compression in a predetermined part of the musculoskeletal system can help to increase the range of motion (ROM) and whether this increase in motion can be achieved by influencing fascial chains even in distant parts of the musculoskeletal system, outside the primary therapeutic zone treated by the tissue flossing method. The research aims to verify and especially compare the patient's joints' range of motion before and immediately after the tissue flossing treatment. The results of the experiment clarify the influence of the tissue flossing therapy method on the range of motion at the application site, on the range of motion in other joints within the Superficial fascial backline described by Myers and last but not least to prove the existence of these fascial chains in the human body.
Systemic autoimmune myopathies are rheumatic diseases that affect the striatum skeletal muscles. The transcranial direct current stimulation technique has been frequent, for example, in patients with ischemic stroke or for the optimization of muscular performance in athletes. However, to date, there are no studies evaluating this technique in patients with systemic autoimmune myopathies. Therefore, the main objective of the present prospective, randomized, double-blind, placebo-controlled study is to evaluate the safety and efficacy of the application of chronic transcranial direct current stimulation sessions - associated with aerobic exercises - in the patients with systemic autoimmune myopathies.
GNE myopathy is a distal myopathy that is thought to be caused by a mutation in the GNE gene that encodes an enzyme in the biosynthetic process of aceneuramic acid (typical sialic acid). The investigators will examine the efficacy and safety of aceneuramic acid (SA-ER tablets) 6g daily for 48 weeks in patients with GNE myopathy in a placebo-controlled, double-blind, controlled trial.
The purpose of this study is to evaluate the dose response of ASP0367 on functional improvement relative to placebo, safety, and tolerability in participants with Primary Mitochondrial Myopathy.
This study is an observational cross-sectional study. Post-operative patients need an immobilization period for a certain period of time after surgery. Kinetic chain changes due to immobilization can affect the symmetry of the core muscle. Therefore, in this study, core muscle asymmetry (CMA) is measured using a whole body tilt device for inpatients who have undergone arthroscopic shoulder surgery. We would like to make a clinical suggestion for post-operative rehabilitation by identifying the characteristics of CMA according to the left or right site.
The most frequent form of adult-onset mitochondrial disorders is mitochondrial myopathy, often manifesting with progressive external ophthalmoplegia (PEO), progressive muscle weakness and exercise intolerance. Mitochondrial myopathy is often caused by single heteroplasmic mitochondrial DNA (mtDNA) deletions or multiple mtDNA deletions, the former being sporadic and latter caused by mutations in nuclear-encoded proteins of mtDNA maintenance. Currently, no curative treatment exists for this disease. However, an NAD+ precursor vitamin B3 has been demonstrated to give power to diseased mitochondria in animal studies by increasing intracellular levels of NAD+, the important cofactor required for the cellular energy metabolism. Vitamin B3 exists in several forms: nicotinic acid (niacin), nicotinamide, and nicotinamide riboside. Nicotinamide riboside has been shown to prevent and improve disease symptoms in several mouse models of mitochondrial myopathy. In addition, the investigators have previously observed that treatment with another form of vitamin B3, niacin, improved NAD+ deficiency and muscle performance in mitochondrial myopathy patients. In this study, the form of vitamin B3, niacin, is used to activate dysfunctional mitochondria and to rescue signs of mitochondrial myopathy in early-stage patients. Of the vitamin B3 forms, niacin, is employed, because it has been used in large doses to treat hypercholesterolemia patients, and has a proven safety record in humans. Phenotypically similar mitochondrial myopathy patients are studied, as the investigator's previous expertise indicates that similar presenting phenotypes predict uniform physiological and clinical responses to interventions, despite varying genetic backgrounds. Patients with mitochondrial myopathy, typically harboring a sporadic single mtDNA deletion or a mutation in nuclear mtDNA maintenance gene causing multiple mtDNA deletions, are recruited. In addition, data from healthy controls from the primary NiaMIT study (ClinicalTrials.gov Identifier: NCT03973203) are utilized to analyse the collected data. Clinical examinations and collection of muscle biopsies are performed at the time points 0 and 10 months. Fasting blood samples are collected every second week until 1.5 months, every fourth week until 4 months and thereafter every six weeks until the end of the study. The effects of niacin on disease markers, muscle mitochondrial biogenesis, muscle strength and the metabolism of the whole body are studied in patients and healthy controls. The hypothesis is that an NAD+ precursor, niacin, will increase intracellular NAD+ levels, improve mitochondrial biogenesis and alleviate the symptoms of mitochondrial myopathy already in early stages of the disease.
This is a randomized, double-blind, placebo-controlled, parallel group, multi-centre, study designed to investigate the efficacy and safety of REN001 administered once daily over a 24-week period to patients with PMM.
This study evaluates the effects of a high-intensity strength training in patients with myositis with the primary outcome being quality of life (SF-36). The study is designed as a parallel group randomised controlled trial with an intervention group and a control group.
SEPN1 (SELENON) is a rare congenital myopathy due to mutations in the SELENON gene. MDC1A is a rare congenital muscle dystrophy due to mutations in the LAMA2 gene. Currently, not much is known about the natural history of these two muscle diseases and no (curative) treatment options exist. The investigators aim to study the natural history of SELENON- and LAMA2-related myopathy/congenital muscular dystrophy patients and prepare for future trials by selection of the most appropriate outcome measures. To this end, a standard medical history, neurological examination, functional measures, questionnaires, cardiac examination, respiratory function tests, radiological examination and accelerometry will be performed over an one and-a-half year period.
This is a phase 2, pilot, randomized, placebo-controlled trial of Gamunex-C IVIG as mono-therapy for HMGCoA reductase auto-antibody positive (HMGCR) necrotizing myopathy. The trial will test the feasibility and initial efficacy of Gamunex-C IVIG mono-therapy in HMGCR necrotizing myopathy.