View clinical trials related to Muscular Dystrophies.
Filter by:This is a multicenter, global study of the effects of a single systemic dose of SRP-9003 on beta-sarcoglycan (β-SG) gene expression in participants with limb-girdle muscular dystrophy, type 2E/R4 (LGMD2E/R4). This study will consist of both ambulatory participants (Cohort 1) and non-ambulatory participants (Cohort 2).
AOC 1044-CS2 (EXPLORE44-OLE) is an Open-label Study to Evaluate the Pharmacodynamics and Long-Term Safety and Tolerability of AOC 1044 Administered Intravenously to DMD Participants with Mutations Amenable to Exon 44 Skipping.
This is a gene transfer therapy study evaluating the safety of delandistrogene moxeparvovec and delandistrogene moxeparvovec dystrophin expression in association with imlifidase, in participants with DMD with pre-existing antibodies to rAAVrh74 over a period of 104 weeks.
Facioscapulohumeral dystrophy (FSHD) is one of the most common hereditary neuromuscular disorders (NMD), with an estimated prevalence of 2000 patients in the Netherlands. Magnetic resonance imaging (MRI) and muscle ultrasound have contributed to an enhanced understanding of the pathophysiology of Facioscapulohumeral Muscular Dystrophy (FSHD). Previously, our group demonstrated the potential presence of an intermediate factor between muscle fiber loss and clinical weakness in FSHD. The influence of disrupted muscle architecture in FSHD on muscle contractile efficiency is a likely candidate for this factor, and remains relatively unexplored. In this study, we aim to assess the use of ultrasound-defined contractile performance, in comparison with current measures including structural MRI, for monitoring disease progression in FSHD.
This research study is testing whether an experimental drug, called SRD-001, is safe and helps the weakened heart of patients with Duchenne muscular dystrophy (DMD) regain its ability to effectively pump blood to the rest of the body. SRD-001 is a form of gene therapy. The goal of SRD-001 gene therapy is to provide the heart muscle cells with extra copies of the SERCA2a gene so that they can produce more SERCA2a protein to help the heart muscle cells squeeze/contract better. Researchers will compare SRD-001 treated participants with no-treatment participants; all participants will continue to take their current heart medications. All participants will be followed very closely for 2 years and undergo cardiac magnetic resonance imaging of their heart at baseline, year 1 and year 2 along with assessment of upper limb function and lung function. After the 2 years of close follow-up, all participants will roll over into long-term follow-up where they will be called biannually for information on their current medical status.
Facioscapulohumeral muscular dystrophy (FSHD) is characterized by clinical diversity, with FSHD1 being the most common form. It is associated with a toxic gain of function of the Double homeobox 4 (DUX4) gene, leading to muscle cell death and weakness. Despite the lack of approved treatments, recent studies highlight inflammation's role in early FSHD progression, triggered by inappropriate DUX4 expression. In understanding inflammation's pivotal role in FSHD, a study assessed serum cytokines in 100 adult FSHD1 patients. Out of the 20 cytokines examined, 10 showed significantly altered expression levels compared to healthy controls of similar age and sex. FSHD1 patients exhibited heightened levels of inflammatory cytokines and diminished anti-inflammatory cytokines, signaling chronic inflammation. Notably, Interleukin-6 (IL-6) emerged as a promising disease activity biomarker, displaying robust correlations with established clinical severity and functional scores. Given the pathological significance of inflammation and the correlation of IL-6 levels with disease severity, the ReInForce study will explore the satralizumab, an IL6-receptor (IL6-R) antagonist, for its efficacy in specifically reducing muscle and systemic inflammation. By antagonizing IL-6R downstream signaling, satralizumab holds promise in mitigating inflammation and potentially curtailing fibrofatty degeneration in FSHD.
The purpose of this study is ; to evaluate the effects of aquatic therapy applied in addition to conventional physical therapy on balance, functionality and quality of life in children with Duchenne and Becker muscular dystrophy.
Subjects who have enrolled in the oculopharyngeal muscular dystrophy (OPMD) natural history study (Study BNTC-OPMD-NH-001) and have completed at least 6 months of follow up in Study BNTC-OPMD-NH-001 may be eligible to participate in this study, where all subjects will be treated with a single dose of BB-301. BB-301 will be injected directly into the middle pharyngeal constrictor muscle and the inferior pharyngeal constrictor muscle of the throat through the use of an open surgical procedure conducted under general anesthesia. The primary objectives of the study are to evaluate the safety of BB-301, to identify the best dose of BB-301 to administer to patients, and to characterize how well BB-301 works to improve the symptoms of dysphagia in patients with OPMD.
This study aimed to investigate the validity and reliability of 6PBRT in individuals with DMD and its applicability on these patients.
Cell-free fetal DNA (cffDNA) is present in the maternal blood from the early first trimester of gestation and makes up 5%-20% of the total circulating cell-free DNA (cfDNA) in maternal plasma. Its presence in maternal plasma has allowed development of noninvasive prenatal diagnosis for single-gene disorders (SGD-NIPD). This can be performed from 9 weeks of amenorrhea and offers an early, safe and accurate definitive diagnosis without the miscarriage risk associated with invasive procedures. One of the major difficulties is distinguishing fetal genotype in the high background of maternal cfDNA, which leads to several technical and analytical challenges. Besides, unlike noninvasive prenatal testing for aneuploidy, NIPD for monogenic diseases represent a smaller market opportunity, and many cases must be provided on a bespoke, patient- or disease-specific basis. As a result, implementation of SGD-NIPD remained sparse, with most testing being delivered in a research setting. The present project aims to take advantage of the unique French collaborative network to make SGD-NIPD possible for theoretically any monogenic disorder and any family.