View clinical trials related to Muscular Diseases.
Filter by:Myotubular myopathy (XLMTM) is an X-linked disorder caused by mutations in the myotubularin gene (MTM1). The clinical spectrum is variable and ranges from individuals who require a wheelchair and full time breathing support to those who are able to walk and breathe on their own. Symptoms of myotubular myopathy include long faces, facial weakness with eye muscle weakness, breathing support with a muscle biopsy demonstrating central nucleated fibers. These symptoms may be caused by mutations or changes in the MTM1, BIN1 (bridging integrator 1), DNM2 (dynamin 2) and RYR1 (ryanodine receptor 1) genes. However, the majority are caused by mutations in the MTM1 gene. Some patients with symptoms consistent with myotubular myopathy who initially have negative testing of the MTM1 gene were later found to have a unique type of change in the MTM1 gene. This unique change, called a deletion or duplication, can be found with a different type of genetic test called a CGH (comparative genomic hybridization) array. Investigators do not know how frequent deletions and duplications are in patients with X-linked myotubular myopathy. Recently, there have been advances in identifying potential treatments for XLMTM. The next step will be to proceed with clinical trials of potential treatments. In order to be ready for clinical trials, it is important that investigators find the specific genetic change that is causing XLMTM in people with this diagnosis. This study will attempt to find changes in the MTM1 gene in individuals who have clinical symptoms consistent with a diagnosis of XLMTM. Participants will be asked to enroll in the CMDIR (Congenital Muscle Disease International Registry), complete a brief clinical survey, provide access to medical records, and provide a saliva or blood sample for genetic testing. Results of genetic testing will be communicated to participants by the physician specified in the consent by the signing person. Study Hypothesis: Not all individuals with a clinical diagnosis of XLMTM have access to genetic testing. Investigators know that deletions and duplications of the MTM1 gene can cause XLMTM. Investigators will find more individuals with XLMTM by performing genetic testing of the MTM1 gene, including CGH array for deletions and duplications.
CoRDS, or the Coordination of Rare Diseases at Sanford, is based at Sanford Research in Sioux Falls, South Dakota. It provides researchers with a centralized, international patient registry for all rare diseases. This program allows patients and researchers to connect as easily as possible to help advance treatments and cures for rare diseases. The CoRDS team works with patient advocacy groups, individuals and researchers to help in the advancement of research in over 7,000 rare diseases. The registry is free for patients to enroll and researchers to access. Visit sanfordresearch.org/CoRDS to enroll.
HIBM is a severe progressive myopathy that typically presents in early adulthood as weakness in the distal muscles of the lower extremities and progresses proximally, leading to a loss of muscle strength and function, and ultimately a wheelchair-bound state. The rate of progression is gradual and variable over the course of 10-20 years or longer. There is a need to better understand the disease-specific features of HIBM to heighten disease awareness; facilitate early diagnosis; identify patients; expand knowledge of the clinical presentation, progression and variation of the disease; identify and validate biomarkers and other efficacy measures; inform on the design and interpretation of clinical studies of investigational products; and eventually to optimize patient management.
A prospective observational study to determine the effectiveness of magnetic resonance (MR) imaging in the diagnosis and monitoring of idiopathic myopathy in adult humans.
The "Clinical Outcome Study for Dysferlinopathy" is being performed in centres in Europe (UK- Newcastle; Spain- Barcelona, Sevilla; San Sebastian;Denmark, Copenhagen, Italy- Padova; France- Paris,), USA (Charlotte, NC; Columbus, OH; St.Louis, MO, Stanford CA, Irvine CA and Columbia NY), Chile (Santiago) Japan (Tokyo) and South Korea (Pusan). Oversight is provided by Newcastle upon Tyne Hospitals Trust. Funding for this study is being provided by the Jain Foundation, a non-profit foundation dedicated to finding therapies for dysferlinopathies(LGMD2b/Miyoshi). The aim of this "Clinical Outcome Study" is to determine the clinical outcome measures required for future clinical trials, characterize the disease progression of dysferlinopathy and collect biological samples for the identification of disease markers that are needed to non-invasively monitor the disease during clinical trials. Without this information, effective clinical trials cannot be performed. This study is recruiting a large number of genetically confirmed dysferlinopathy patients aged 10 years or older, who are ambulant or non-ambulant. The study has reopened for a further two years (COS2). Participants will be assessed at 4 further visits over 2 years via medical, physiotherapy, and MRI/MRS assessments, as well as standard blood tests. Optionally, the participants can donate blood samples and a skin sample for use in the identification of disease markers and other approved research. There is a sub-study running in MRI at selected sites.
Background: - Hereditary inclusion body myopathy (HIBM) is a genetic disorder caused by mutations in a gene called GNE. This gene is responsible for producing a sugar called sialic acid. Low levels of sialic acid may cause muscle problems. Symptoms of HIBM include walking difficulties and muscle weakness, which usually start in a person s 20s or 30s and become worse over time. Researchers are studying a drug called ManNAc. It may be useful for treating HIBM. However, this drug is still being tested. Researchers want to see how ManNAc is absorbed into and removed from the blood. They will not be looking specifically at whether ManNAc can stop or slow the symptoms of HIBM. Objectives: - <TAB>To study how MaNAc is absorbed into and removed from the blood in people with HIBM. - <TAB>To study of safety of ManNAc in people with HIBM. Eligibility: - Individuals between 18 and 70 years of age who have HIBM. Design: - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. - Participants will have a 3 to 4-day inpatient stay for the main part of the study. - Participants will be divided into groups of six. In each group, four will take ManNAc and two will take a placebo. Participants will not know which one they will receive. - Participants will have a single dose of either ManNAc or placebo. They will be monitored for any possible side effects. Frequent blood samples will be collected during the 4-day stay. - No treatment for HIBM will be provided as part of this study.
Background: - Some nerve and muscle disorders that start early in life (before age 25), like some forms of muscular dystrophy, can run in families. However, the genetic causes of these disorders are not known. Also, doctors do not fully understand how symptoms of these disorders change over time. Researchers want to learn more about genetic nerve and muscle disorders that start in childhood by studying affected people and their family members, as well as healthy volunteers. Objectives: - To better understand nerve and muscle disorders that start early in life and run in families. Eligibility: - Individuals at least 4 weeks old with childhood-onset muscular and nerve disorders, including those who have a later onset of a disorder that typically has childhood onset. - Affected and unaffected family members of the individuals with muscular and nerve disorders. - Healthy volunteers at least 4 weeks old with no nerve or muscle disorders. Design: - Participants will be screened with a physical exam and medical history. Genetic information will be collected from blood, saliva, cheek swab, or skin samples. Urine samples may also be collected. - Healthy volunteers and unaffected family members will have imaging studies of the muscles. These studies will include magnetic resonance imaging (MRI) and ultrasound scans. Results will be compared with those from the affected participants. - All participants with nerve and muscle disorders will have multiple tests, including the following: - Imaging studies of the muscles, including ultrasound and MRI scans. - Imaging studies of the bones, such as x-rays and DEXA scans. - Heart and lung function tests. - Eye exams. - Nerve and muscle electrical activity tests and biopsies. - Video and photo image collection of affected muscles. - Speech, language, and swallowing evaluation. - Lumbar puncture to collect spinal fluid for study. - Tests of movement, attention, thinking, and coordination. - Participants with nerve and muscle disorders will return to the Clinical Center every year. They will repeat the tests and studies at these visits....
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.
Neutral Lipid Storage Disease With Myopath (NLSDM) is a disease caused by a defect in the PNPLA2 gene encoding ATGL. Patients with NLSDM accumulate triglycerides and exhibit muscle weakness, cardiac failure and hepatosteatosis. Most of these patients die at young age due to cardiac failure. Not much is known about the underlying mechanisms, though recently it was discovered that PPAR activation in ATGL-/- mice was impaired leading to decreased mitochondrial function, lipid accumulation and cardiac failure resulting in death at young age. Activation of PPARs, by treatment with fibrates rescued the phenotype and reduced mortality rates in these mice. These findings may have a major impact for patients with NLSDM if these results can be translated to humans. Therefore, the investigators would like to evaluate the beneficial effects of fibrate treatment on muscle mitochondrial and cardiac function in patients with NLSDM. Patients will be treated with fibrates during a period of 28 weeks. Baseline measurements will be performed prior to the study and after treatment. Cardiac and muscular lipid accumulation, cardiac function, mitochondrial function and insulin sensitivity will be assessed during these baseline measurements.
GNE myopathy or hereditary inclusion body myopathy (HIBM) is a severe progressive metabolic myopathy caused by a defect in the biosynthetic pathway for sialic acid (SA).