View clinical trials related to Myopathy.
Filter by:The objective of the proposed study is to evaluate the clinical utility of muscle ultrasonography for improving the diagnostic yield and safety of core muscle biopsy. Our facility currently uses core (needle) biopsy to obtain muscle samples in patients 18 years old or older. Currently, there is no imaging tool used to guide the actual biopsy. As muscle biopsy is an invasive and potentially painful procedure, improving the diagnostic yield of this test is important.
It is our primary hypothesis that statin drugs impair skeletal muscle mitochondrial function and that ubiquinol (the reduced active form of CoQ10) supplementation will block impairment of PCr recovery kinetics in patients using statins. The investigators propose a pilot study to extend our research to examine PCr recovery kinetics in 20 statin users randomized in a parallel arm study to either ubiquinol or placebo over 4 weeks.
Background: - Mitochondria are the parts of cells that help produce energy. Metabolism is the process by which the body uses energy to help cells grow and reproduce. Metabolic and mitochondrial disorders affect the body s ability to produce and store energy. These disorders can cause a wide variety of problems, but most often they affect the muscles and the brain, where energy requirements are high. Treatment is difficult because the exact source of the problem is hard to detect. - EPI-743 is a new drug that is based on vitamin E. Tests have shown that it can help improve the function of cells with mitochondrial problems. It may be able to treat people with genetic disorders that affect metabolism and mitochondria. Objectives: - To see if EPI-743 can improve energy production and use in people with mitochondrial or metabolic disorders. Eligibility: - Children between 2 and 11 years of age who have metabolic or mitochondrial problems. Design: - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. - The study will last about 13 months. Participants will have seven 3- to 5-day inpatient study visits about 3 months apart. - Participants will take either EPI-743 or a placebo for the first 6 months of the study. After 6 months, there will be a 1-month rest period. Then, those who received EPI-743 in the first 6 months will take the placebo for the next 6 months. Those who had the placebo will take EPI-743. - During each inpatient study visit, participants will have a physical exam. A 24-hour urine collection will be obtained. Blood samples will also be taken. Imaging studies and other tests may be performed as directed by the study researchers.
Background: - A mutation in a gene known as ISCU was found to be the cause of a rare myopathy that affects the muscles. Researchers collected clinical samples from people with this myopathy. More research is being done to develop a therapy for this disease. Researchers are asking for permission to study the samples already collected. Objectives: - To allow researchers to use clinical samples collected to study new treatments for ISCU myopathy. Eligibility: - People with ISCU myopathy who have provided clinical samples for study. Design: - Participants will allow researchers to study clinical samples already collected. Blood, urine, muscle, and cell samples may be used. Medical records and photographs may also be studied. - Treatment will not be provided as part of this study.
Myotonic dystrophy type 1 is a myopathy with complex respiratory pattern and at risk to develop respiratory failure. Classical mode of ventilation are sometimes not tolerated or ineffective in this population. New modes of nocturnal ventilation by combining both volumetric and barometric advantages. The aim of this study is to compare effect of AVAPS mode to bilevel pressure support.
The purpose of this study is to determine whether prednisone, methotrexate, and cyclophosphamide are effective in the treatment of rapidly progressive hearing loss in both ears due to autoimmune inner ear disease (AIED).
The investigators are researching families with inherited inclusion body myopathy (IBM) and/or Paget disease of bone (PDB) and/or dementia (FTD) which is also called IBMPFD. IBMPFD is caused by mutations in the VCP gene. Our main goal is to understand how changes in the VCP gene cause the muscle, bone and cognitive problems associated with the disease. The investigators are collecting biological specimen such as blood and urine samples, family and medical histories, questionnaire data of patients with a personal or family history of VCP associated disease. Participants do not need to have all symptoms listed above in order to qualify. A select group of participants may be invited to travel to University of California, Irvine for a two day program of local procedures such as an MRI and bone scan. Samples are coded to maintain confidentiality. Travel is not necessary except for families invited for additional testing.
This is a multicenter randomized controlled open labeled study testing efficacy and tolerance of early launching of night non invasive ventilation in patients with myotonic dystrophy type 1(DM1). The object of this project is to estimate the effects of the early introduction of non invasive ventilation on the arisen of complication (non expected hospitalization, tracheostomy even death) with regard to a simple respiratory follow-up in patients affected by myotonic dystrophy.
A major contributor to frailty and immobility in the elderly is the age related loss of muscle mass (sarcopenia). Cardiovascular disease (CVD) is the leading cause of mortality in the elderly, with high blood cholesterol and lipids being the major modifiable risk factor. Statins reduce blood cholesterol, but muscle related pain, tenderness and discomfort (myopathy) is an adverse event associated with statin therapy, with older people being at a much greater risk. Statin myopathy presents as muscle aches and weakness, with or without evidence of muscle damage; however the underlying mechanisms responsible for these symptoms are poorly understood. Using an animal model, the applicants have shown the main pathway regulating muscle protein synthesis is inhibited in statin myopathy, and genes regulating muscle protein breakdown, the inhibition of muscle carbohydrate use and inflammation are dramatically increased. Therefore we wish to determine whether these changes are seen in the muscle of older people with symptoms of statin myopathy, and whether this is associated with lower muscle mass and impaired muscle function compared with older people with no history of statin use. Identification of the mechanisms involved in statin myopathy could lead to effective therapy for older people unable to tolerate statins.
1. Analyze the various causes of breakdown of muscle fibers in hospitalized patients. 2. Analyze the characteristics of these patients in Taiwan (including the drugs history, risk factors and the incidence of complications).