View clinical trials related to Spinal Muscular Atrophy (SMA).
Filter by:The goal of this multicenter, open-label, non-comparative, cohort study is to investigate the safety, immunogenicity, and efficacy of ANB-004 in children with spinal muscular atrophy. The study will have a standard 3+3 dose-escalation design.
The primary objective of the study is to evaluate anxiety level during intrathecal administration (IT) under standard of care (SOC) and virtual reality (VR) conditions using a reliable self-rating scale.
This is a global, prospective, multi-center study that is designed to assess the long-term safety and efficacy of OAV101 in patients who participated in an OAV101 clinical trial. The assessments of safety and efficacy in Study COAV101A12308 will continue for 15 years from the date of OAV101 administration in the previous clinical trial.
Risdiplam works by helping the body produce more survival motor neuron (SMN) protein throughout the body. This means fewer motor neurons - nerve cells that pass impulses from nerves to muscles to cause movement - are lost, which may improve how well muscles work in people with SMA. RO7204239 is an investigational anti-myostatin antibody that is designed to target myostatin. Myostatin plays an important role in the regulation of skeletal muscle size by controlling growth. Inhibiting myostatin may help muscles grow in size and strength. RO7204239 in combination with risdiplam, which is designed to increase the amount of SMN protein throughout the body, has the potential to further improve motor function and clinical outcomes for people living with SMA. This trial will study the safety and efficacy of RO7204239 in combination with risdiplam in patients with spinal muscular atrophy (SMA). The trial has two parts; Part 1 is the dose-finding part in SMA patients that are either ambulant (aged 2-10 years) or non-ambulant (aged 5-10 years) within separate cohorts, and Part 2 is the pivotal part in SMA patients aged 2-25 years that are ambulant.
Spinal muscular atrophy (SMA) is a neurogenetic disorder caused by a loss or mutation in the survival motor neuron 1 gene (SMN1) on chromosome 5q13, which leads to reduced SMN protein levels and a selective dysfunction of motor neurons. SMA is an autosomal recessive, early childhood disease with an incidence of 1:10,000 live births. SMA is the leading cause of infant mortality due to genetic diseases. Until recently, the mainstay of treatment for these patients was supportive medical care. However, advances in medical treatment focusing on gene replacement, gene enhancement, motor neuron protection and muscle enhancement is likely to change the management and prognosis of these patients in the future. The purpose of this registry is to assess the long term outcomes of patients with SMA in the context of advances in treatment options.
Several factors make the use of celecoxib in human SMA patients appealing including: 1) low-dosing required for potential therapeutic effect (the corresponding dose in humans is much lower than that commonly used in adults and children with; 2) favourable side effect profile of this drug (particularly at the dosing required); 3) the fact that celecoxib crosses the blood brain barrier and 4) demonstration of efficacy in a genetically and pathophysiologically faithful animal mode. The investigators therefore believe that celecoxib is a promising disease modifying therapy for SMA.
Spinal muscular atrophy (SMA) is the leading genetic cause of death of infants. Strong preclinical evidence suggests that effective therapy must be delivered as early as possible to prevent progression of the disease. The primary study objective will be to identify prognostic and surrogate biomarkers of disease progression that will facilitate the execution of therapeutic SMA clinical trials in infants.
The purpose of this study is to collect blood samples to enable validation of genetic testing for diseases within a multi-disease carrier screening panel. Samples will be collected from adult women or men who have previously tested positive as carriers for various recessive conditions. These are healthy adults who carry a mutation that might place them at increased risk of having a child with a specific genetic disorder. Study participation will be open to adults that were previously tested as part of their routine medical care and where test results demonstrated positive carrier status for a specific genetic disease. Samples will be tested for the disease mutation for which the subjects provides documentation of prior testing.