View clinical trials related to Muscular Atrophy.
Filter by: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.
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.
Confinement to bed, which occurs in many pathological situations, induces a muscle atrophy and a loss of muscle strength. Muscle atrophy is associated to impaired performance in motor tasks, such as posture and locomotion, and is therefore a major cause of loss of autonomy. It requires a stay in follow-up and rehabilitation service, and thus lengthens the duration of hospitalisation. Data underline the importance of afferent input integrity in the maintenance of muscle characteristics and postural control, and suggest that countermeasure programs based on the stimulation of proprioceptive inputs could be efficient to prevent muscle atrophy and falls. In particular, fundamental studies performed in rodents by the investigators laboratory have demonstrated that the adverse structural and functional adaptations which occur during muscle deconditioning can be counteracted through adequate physiological stimuli such as activation of proprioceptors. Based on this scientific expertise, the investigators aim is thus to prevent muscle atrophy and its functional consequences on posture and locomotion, following a surgical intervention in humans . The investigators will develop a device allowing stimulation of foot and ankle proprioceptors. In order to facilitate the evaluation of its efficiency, the device will be tested on a selected population confined to bed during a post-operative period (knee replacement). It efficiency will be evaluated by means of three parameters: muscle force of ankle plantar flexor, muscle volume of lower limb muscles, functional outcome (gait and balance analysis). The technique developed in the present project could bring benefits to patients confined to bed, or in elderly. Preventing or retarding development of muscle atrophy will beneficiate to health and quality of life of these patients. In addition, this device might allow to consider therapeutic strategies for prevention of atrophy in neuromuscular pathologies.
This project is designed to use MRI to evaluate pre- and post-arthroplasty hips; the specific aims of this project are three-fold. First, the investigators intend to compare the amount of muscle atrophy and tendon damage that occurs around the hip between two commonly-used operative approaches: the direct-anterior approach and the posterior approach. Second, the investigators aim to provide baseline data on the amount of muscle atrophy and tendon damage that should reasonably be expected to occur with both of these approaches. Third, the investigators will document the degree of recovery of the periprosthetic soft tissues post-surgery in both patient groups. The investigators first hypothesis is that the posterior approach will demonstrate significantly more damage to the abductors, piriformis, and short external rotators than the direct anterior approach, which will demonstrate minimal soft tissue damage. The investigators second hypothesis is that both surgical approaches will cause some degree of baseline muscle damage and atrophy, in a predictable pattern. The investigators third hypothesis is that each of the surgical approaches inherently cause some degree of soft tissue damage, and that the periprosthetic soft tissues that are incised during the surgical exposure will recover in a predictable pattern which is consistent but unique within each group
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.
This study is being done to test whether taking testosterone can prevent loss of muscle mass and strength due to anterior cruciate ligament (ACL) reconstructive surgery. Testosterone is the principal male sex hormone and an anabolic (muscle promoting) steroid. It is essential for the development of male reproductive tissues and promotes increased muscle, bone mass, and the growth of body hair. The investigators hope to learn whether testosterone given before and after ACL reconstructive surgery will increase muscle mass and strength and potentially improve recovery time following surgery.
Respiratory dysfunction is the major cause of morbidity and mortality in patients with spinal muscular atrophy (SMA). Air stacking is a clearance airway technique frequently used but its effects on cardiac autonomic function in patients with spinal muscle atrophy is not clear. Objective: To evaluate the acute effect of air stacking and posture on cardiac autonomic function in patients with spinal muscular atrophy types II and III. Methods: Patients with spinal muscle atrophy type II and III will be recruited. Electrocardiogram signals will be recorded for analyses of heart rate variability during air stacking in supine and sitting position.
Mainly due to the absence of gravitational forces in weightlessness, astronauts suffer from an increased bone loss- negatively affecting health and vitality during a mission. The development of effective countermeasures to this loss includes many different aspects like sports but also nutrition. Alkaline salts, abundant in fruits and vegetables, have shown to have positive effects on markers of bone turnover of postmenopausal women but also men and younger adults. With the current study the effects of a potassium bicarbonate supplementation added to a standardised, strictly controlled, definite diet of healthy, young men, should be verified within 21 days of 6°- HDT- Bedrest- the gold standard of simulating weightlessness within earthbound conditions.
This objectives of this study are to evaluate the safety, tolerability, and pharmacokinetics of a single dose of nusinersen (ISIS 396443) administered intrathecally to participants with Spinal Muscular Atrophy (SMA).