Myorelaxant Effect of Bee Venom(BV) Topical Skin Application in Patients With RDC/TMD Ia and Ib...
Other Disorders of Muscle in Diseases Classified ElsewhereTopical application of BV ointment in patients with Research Diagnostic Criteria/Temporomandibular Disorder 1a and 1b (RDC/TMD) in experimental group, compared to placebo (vaseline) in control group.Application was repeated 3 times a day, during 14 days. Surface electromyography (EMG) was used to measure masseter rest tonus and maximal voluntary contraction tonus. Pain intensity was also analysed in VAS scale. Effectiveness of BV was compared with placebo in masseter myofascial pain in patients with TMD
Identification of Factors Associated With Physical Activity Levels in Adult Muscle Diseases
Muscle DiseaseTo evaluate physical activity levels and factors associated with physical activity levels in adult patients with muscle diseases.
Stretching Exercises Versus Thermotherapy on Restless Legs Syndrome Symptoms
Muscle DisorderTo compare the effects of stretching exercises versus thermotherapy on RLS symptoms and sleep quality among pregnant women. Research hypotheses: Pregnant women who perform leg stretching exercises exhibit lower RLS symptoms severity and pain level than those who applied thermotherapy. Pregnant women who perform leg stretching exercises exhibit higher sleep quality than those who applied thermotherapy.
Niacin Supplementation in Healthy Controls and Mitochondrial Myopathy Patients
Mitochondrial MyopathiesThe 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. The investigators have previously observed that supplementation with an NAD+ precursor vitamin B3, nicotinamide riboside, prevented and delayed disease symptoms by increasing mitochondrial biogenesis in a mouse model for mitochondrial myopathy. Vitamin B3 exists in several forms: nicotinic acid (niacin), nicotinamide, and nicotinamide riboside, and it 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. In this study, the form of vitamin B3, niacin, was used to activate dysfunctional mitochondria and to rescue signs of mitochondrial myopathy. 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 either with sporadic single mtDNA deletions or a mutation in a Twinkle gene causing multiple mtDNA deletions were recruited. In addition, for every patient, two gender- and age-matched healthy controls are recruited. Clinical examinations and collection of muscle biopsies are performed at the time points 0, 4 and 10 months (patients) or at 0 and 4 months (controls). Fasting blood samples are collected every second 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 in humans.
Peripherical Neuromuscular Electrical Stimulation in Systemic Autoimmune Myopathies
Electrical RemodelingRheumatic Diseases1 moreSystemic autoimmune myopathies are a heterogeneous group of rheumatic diseases with progressive skeletal muscle weakness. The relevance of the peripherical neuromuscular electrical stimulation has never applied in the patients with systemic autoimmune myopathies. Therefore, the main objective of the present prospective, randomized, investigator-blind, placebo-controlled study is to evaluate the safety and efficacy of the application of an acute peripherical neuromuscular electrical stimulation session in patients with systemic autoimmune myopathies.
NiaMIT Continuation With Early-stage Mitochondrial Myopathy Patients
Mitochondrial MyopathiesThe 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.
Aerobic Training in Patients With Congenital Myopathies
Congenital MyopathyCongenital myopathies are clinical and genetic heterogeneous disorders characterized by skeletal muscle weakness. Most patients experience muscle weakness and fatigue throughout their life. However, progression of symptoms is rare. There are no specific treatments for congenital myopathies. Training has been shown to benefit several other muscle diseases with weakness, but the defect in congenital myopathies involves contractile proteins of the sarcomere, why the effect of training is uncertain in these conditions. The investigators will therefore investigate the effect cycle-ergometer training for 30 minutes, three times weakly, for ten weeks in 15 patients with congenital myopathy. Another 5-10 congenital myopathy patients, who do not train, will serve as controls for the trained patients. The study starts and ends with a test day, where efficacy based on VO2max, performance in functional tests and a questionnaire will be assessed.
Treating Idiopathic Inflammatory Myopathies Related Reduced Bone Mineral Density With Denosumab...
Idiopathic Inflammatory MyopathiesOsteoporosis1 moreIdiopathic inflammatory myopathies (IIM) patients are at high risk of development of reduced bone mineral density due to impairment of functional status due to the disease and a relatively high dose of glucocorticoid use for the treatment. Reduced bone mineral density is prevalent in local IIMs patients. Denosumab and zoledronic acid are established treatments for osteoporosis in postmenopausal women and glucocorticoid-induced osteoporosis. However, the role of these treatments in reduced bone mineral density including osteoporosis and osteopenia related to IIMs are lacking. There is also no evidence on comparing the efficacy of the two agents. Therefore, the investigators conducted this prospective randomized controlled study to compare the efficacies of denosumab and zoledronic acid in treating reduced bone mineral density in IIMs patients. The hypothesis in this study is that treatment by denosumab or zoledronic acid would improve bone mineral density in IIMs patients with reduced bone mineral density.
Low-dose Interleukin-2 Treatment on Idiopathic Inflammatory Myopathy
Inflammatory MyopathyThis study aims to explore the clinical and immunological efficacy of low-dose Interleukin-2 (IL-2) on idiopathic inflammatory myopathy (IIM).
Low-dose Interleukin-2 in Combination With Standard Therapy on Idiopathic Inflammatory Myopathy...
Inflammatory MyopathyThis study aims to explore the clinical and immunological efficacy of low-dose Interleukin-2 (IL-2) and cyclosporin a (CSA) on idiopathic inflammatory myopathy (IIM)