View clinical trials related to Spinal Muscular Atrophy.
Filter by:The primary objective of this study is to examine the safety and tolerability of nusinersen (ISIS 396443) administered intrathecally to participants with Spinal Muscular Atrophy (SMA) who previously participated in ISIS 396443-CS2 (NCT01703988) or ISIS 396443-CS10 (NCT01780246). The secondary objective is to examine the plasma and cerebrospinal fluid (CSF) pharmacokinetic(s) (PK) of nusinersen administered intrathecally to participants with SMA who previously participated in ISIS 396443-CS2 or ISIS 396443-CS10.
Spinal muscular atrophy type III, (SMAIII) is a disease in the nerve cells in the spinal cord which leads to to progressive muscle weakness and atrophy. No effective treatment is available for SMA. We have previously shown that patients with muscular dystrophies improve oxidative capacity (VO2max), muscle strength and daily function by aerobic conditioning. Patients with SMAIII share many clinical features with these conditions, although the mechanism of muscle weakness is different. In this study, we investigated how patients with SMAIII respond to aerobic training. 6 patients and 9 healthy age- and sex-matched controls completed a 12 weeks training program. Subjects performed a total of 42 training session of 30 min on a stationary cycle ergometer at home. The work intensity was moderate and set to match a target heart rate. Training induced an increase without inducing muscle damage. However, training-induced fatigue was a major complaint in all patients, and caused one patient to drop out, increased the need for sleep in three patients and two had to modify the training program. The fatigue limits the use of this therapy. The training-induced fatigue, which is not encountered in muscle diseases, warrants investigations into alternative training methods to improve quality of life in patients with SMAIII.
Patients with underlying neuromuscular disorder (NMD) often suffer from weakness in the inspiratory and expiratory muscles. Consequently they do not have the strength to generate the minimum flow of 160 to 300 liters/minute for an efficient cough function. The restricted cough function allows secretion to accumulate, which in turn causes narrowing of the airway lumen and makes ventilation of the neuromuscular patient even more difficult. The patient's susceptibility to infection increases again and the vicious circle repeats itself. Severe secretion retention may even lead to ventilator failure. Effective secretion and cough management instead reduces the risk for stay in hospital. Therefore, secretion and cough management is a mandatory part of the therapeutic concept for treating patients with neuromuscular disease. The therapeutic efficacy of the Lung Insufflation Assist Maneuver(LIA) integrated in the ventilator VENTIlogic LS-plus manufactured by Weinmann GmbH+Co KG was studied in a pilot study carried out by the Dep. for Pediatric Pulmonology and Sleep Medicine at the University Hospital of Essen/Germany in cooperation with Research & Development at Weinmann GmbH &Co KG, Germany . The objective of the pilot study was to examine the therapeutic efficacy of LIAM as a cough support function in patients with neuromuscular disease and indications for mechanical ventilation. We hypothesized that i) a certain insufflation maneuver pressure may be optimal to achieve the highest individual peak cough flow and ii) that this pressure is below the pressure needed to achieve the maximum insufflation capacity. We define the lowest insufflation capacity at which the best individual PCF can be achieved as optimum insufflation capacity (OIC). The study was performed using two different techniques in order to demonstrate that findings are not dependent on maneuver details but are rather based on effects of maneuver pressure. The protocol was limited to techniques which do not require breath stacking: i) insufflation with an Intermittend Positive Pressure (IPPB) device and ii) with the VENTIlogic LS using LIAM.
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The primary objective is to examine the clinical efficacy of multiple doses of nusinersen (ISIS 396443) administered intrathecally to participants with Infantile-Onset Spinal Muscular Atrophy (SMA). The secondary objectives are to examine the safety and tolerability of multiple doses of nusinersen administered intrathecally to participants with infantile-onset SMA and to examine the cerebral spinal fluid (CSF) and plasma Pharmacokinetics (PK) of multiple doses of nusinersen administered intrathecally to participants with infantile-onset SMA.
The primary objective of this study is to examine the safety and tolerability of nusinersen (ISIS 396443) administered intrathecally to participants with Spinal Muscular Atrophy (SMA) who previously participated in ISIS 396443-CS1 (NCT02865109). The secondary objective was to examine the plasma pharmacokinetics of a single dose of ISIS 396443 administered intrathecally to participants with SMA who previously participated in ISIS 396443-CS1.
Spinal muscular atrophy is a genetically based disease that affects motor neurons in the spinal cord and leads to muscle wasting and weakness. The gene found to be responsible for the underlying disease is called the SMN or survival motor neuron gene. Individuals with SMA are either missing a copy of the gene or have a mutation in the gene. Although the gene has been identified, how it actually causes the motor neurons to die and leads to muscle wasting and weakness is not completely understood. The investigators have found that skin cells from children with SMA tend to be more susceptible to cell death when exposed to cell death inducing agents. In this protocol, The investigators wish to study the mechanisms by which these cells die when exposed to these agents and how this may be related to the gene defect and the disease.
This study will test the safety, tolerability, and pharmacokinetics of escalating doses of nusinersen (ISIS 396443) administered into the spinal fluid either two or three times over the duration of the trial, in participants with spinal muscular atrophy (SMA). Four dose levels will be evaluated sequentially. Each dose level will be studied in a cohort of approximately 8 participants, where all participants will receive active drug.
The purpose of this study is to assess whether 4-AP (Dalfampridine-ER, Ampyra) improves walking ability and endurance in adult patients with Spinal muscular atrophy (SMA) Type 3 compared to placebo and whether the duration of treatment affects outcome.
The aim of this project is to establish a network of clinical teams including the major neuromuscular centers in Europe. We plan to work together to find the best common outcome measures for the following multicenter therapeutic trials.