View clinical trials related to Ataxia.
Filter by:Objectives: To compare the effectiveness of RAS-MPT, RAS alone, MPT alone, and usual care (as a control) for improving the overall gait performance of and reducing falls in children with developmental coordination disorder (DCD) and to explore the relationship between gait performance and falls in this population. Design: A randomized controlled trial. Sample: 76 children with DCD. Interventions: RAS-MPT, RAS alone, MPT alone, or usual care (12 weeks). Major outcomes: Outcomes will be evaluated at baseline, post-intervention, and a 6-month follow-up. Comprehensive gait analysis will produce spatiotemporal gait parameters (e.g., velocity and stride length), kinematic gait parameters (e.g., knee joint motions), and leg muscle EMG outcomes; an isokinetic test will quantify leg muscle strength and force production time; and fall histories will be obtained via interviews. Anticipated results and significance: The RAS-MPT group is predicted to display the best gait performance, which is associated with reduced fall incidents. This novel training regime can be readily adopted in school, clinical, or home settings to improve locomotor ability in children with DCD, an outcome with positive socioeconomic implications.
Traumatic Brain Injury (TBI)patients often suffer from loss of muscle strength in the hand and foot, decrease in coordination and high muscle tone (spasticity). In this study, investigators seek to compare how two different training programs can improve the coordination and symptoms of fatigue in individuals with movement deficits secondary to TBI. Using brain imaging, the study will also investigate changes in brain structure and activity associated with hand movement.
This study will test laryngeal adaptation in speech and swallowing function in healthy adults, in patients with cerebral stroke, and in patients with spinocerebellar ataxia type 6. The findings from this proposal will be the first step toward implementing rehabilitation techniques that help patients to prevent speech and swallowing errors before they occur.
The proposed study aims to characterize ataxia occurring in essential tremor and essential tremor with DBS.
Friedreich ataxia is the most frequent early-onset autosomal recessive hereditary ataxia. It is caused by a pathological expansion of a GAA repeat in the first intron of the frataxin gene (FXN) and results in decreased levels of FXN protein. FXN deficiency results in a relentlessly progressive neurodegenerative condition which frequently presents around puberty. Patients gradually lose coordination, become dysarthric and are frequently wheel-chair bound as adolescents. There is no disease modifying therapy and many patients die prematurely of cardiomyopathy. It was subsequently found that the FXN gene is silenced at the chromatin level by the formation of heterochromatin and that this heterochromatin formation can be antagonized by histone deacetylase inhibitors (HDACi) (Chan et al., 2013). A recent proof-of-concept clinical study on ten patients with Friedreich ataxia demonstrated that FXN levels can be restored to those seen in asymptomatic carriers using the class III HDACi nicotinamide at a dose that is well tolerated by patients (Libri et al., 2014). Since carriers are asymptomatic, this degree of restoration of FXN expression might be expected to halt disease progression. Nicotinamide readily crosses the blood brain barrier and has previously been given at high doses for long periods to normal individuals without serious adverse effects (Gale et al., 2004; Knip et al., 2000). This study will be the first to provide clinical evidence for the efficacy and safety of nicotinamide in patients with Friedreich´s ataxia.
This is a multinational, multicenter, open-label, rater-blinded prospective Phase II study which will assess the safety and efficacy of N-Acetyl-L-Leucine (IB1001) for the treatment of Ataxia-Telangiectasia (A-T). There are two phases to this study: the Parent Study, and the Extension Phase. The Parent Study evaluates the safety and efficacy of N-Acetyl-L-Leucine (IB1001) for the symptomatic treatment of A-T. The Extension Phase evaluates the long-term safety and efficacy of IB1001 for the neuroprotective, disease-modifying treatment of A-T.
The first aim is to show aerobic training improves degenerative cerebellar patients functionally The second aim is to compare the effects of balance and aerobic training on degenerative cerebellar disease.
The study aims at validating the diagnostic performances of the METAglut1, a blood in vitro diagnostic test, for the simple and early diagnosis of the Glut1 deficiency syndrome (Glut1DS, or De Vivo disease). The blood test will be carried out prospectively on patients presenting with a clinical suspicion of Glut1DS, blindly from the reference strategy, which consists in a lumbar puncture for glycorrhachia measurement, completed by a molecular analysis. The study will be conducted in more than 40 centers in France on up to 3,000 patients for 2 years.
Cerebellar ataxia is a neurologic symptom caused by a damage or a dysfunction in cerebellum and results in loss of coordination, balance and postural control. This impairment could result in a reduction of walking speed, short and irregular steps and difficulty in coordinating between lower limbs. Pharmacological interventions are not able to modify ataxia gait pattern, therefore, new approaches to rehabilitate must be studied. Treadmill locomotor training (TLT) and cerebellar transcranial direct current stimulation (ctDCS) are physical therapy techniques able to module cerebellar afferences and modify positively ataxia gait pattern. However, there is no study involving the association of these two techniques. The purpose of this study is to evaluate the effects of ctDCS associated to TLT on functional mobility in subjects with cerebellar ataxia. A randomized, sham controlled, double blind clinical trial will be performed. The subjects will be randomly allocated into two groups: (i) ctDCS associated with TLT; (ii) ctDCS sham associated with TLT. The TLT will be performed with a speed and step length progression protocol for 25 minutes. The anodal ctDCS (2 mA, 25 minutes) or sham (2mA, 30 seconds) will be applied during TLT. The functional mobility will be the primary outcome and will be evaluated through timed up and go test (TUG). Ataxia' severity, balance and fall risky, will be the secondary outcomes and will be evaluated by the scale for the assessment and rating of ataxia (SARA), balance evaluation system test (miniBest) and TUG, respectively.
The first aim is to show balance training improves DCD individual's ability to compensate for their activity limitations, but does not impact disease progression. The second aim is to demonstrate aerobic exercise improves balance and gait in DCD persons by affecting brain processes and slowing cerebellar atrophy.