View clinical trials related to GNE Myopathy.
Filter by: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.
GNE myopathy is a rare genetic muscle disease characterized by progressive muscle atrophy and weakness. The disease is caused by mutations in the gene that encodes the enzyme that initiates and regulates N-acetylneuraminic acid (Neu5Ac) biosynthesis and glycan sialylation. Currently, there is no therapy available for this disease. N-Acetylmannosamine (ManNAc), an orphan drug in development for GNE myopathy, is an uncharged monosaccharide and the first committed precursor in Neu5Ac biosynthesis. In this randomized, double-blind, placebo-controlled trial the efficacy and long-term safety of ManNAc will be evaluated in subjects with GNE myopathy.
GNE myopathy, an ultra-rare disease, 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 understand the world wide epidemiology of this ultra-rare condition, better understand a long-term disease course and the progression of disease-specific features, support translational research by evaluating burden illness and support clinical research recruitment. Therefore, the study will longitudinally collect information via an online patient registry platform.
The objective of this study is to evaluate the long-term safety and efficacy of Ace-ER treatment in subjects with GNEM.
The primary objective of this Phase 2 study is to evaluate the safety of open-label 6 g/day Ace-ER in GNEM participants with severe ambulatory impairment.
The primary objective of this study is to evaluate the effect of 6 g/day aceneuramic acid extended-release (Ace-ER) treatment of participants with GNEM on upper extremity muscle strength (upper extremity composite [UEC] score) as measured by dynamometry.
Background: Patients with GNE myopathy have progressive muscle weakness and can have difficulty walking and decreased mobility. The disease is a rare genetic disorder that results from a gene mutation in a key step in the body's production of a sugar called sialic acid, (also called N-acetylneuraminic acid, Neu5Ac). Researchers think decreased sialic acid bound to muscle proteins may be the cause of muscle wasting in GNE myopathy. Researchers are testing the drug ManNAc which is a precursor in the production of sialic acid within cells. ManNAc is provided as a powder dissolved in water to be administered orally.
The safety objectives of the study are to: evaluate additional long-term safety of SA-ER treatment of participants with GNE myopathy previously treated with SA-ER at dose of 6g/day (Part I); evaluate the safety of 12g /day SA (delivered by 1.5g of SA-ER tablets and 1.5g of SA-IR capsules 4 times per day) in the treatment of participants with GNE myopathy (Part II) over a 6 month treatment period; evaluate the safety of SA treatment at both 6g/day and 12 g/day (Part III [SA-ER/SA-IR] and Part IV [SA-ER]).
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.
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.