View clinical trials related to Ataxia.
Filter by:Friedreich's Ataxia (FA) Friedreich's Ataxia is a neurodegenerative disease caused by a homozygous expansion of the GAA triplet repeats of the frataxin gene (FXN). FA usually begins in childhood or adolescence. It affects both boys and girls. At the neurophysiological level, FA is characterised by neuronal loss affecting the dorsal root ganglia, spinal cord and cerebellum. At present, daily exercise is the only way to combat the disease. There is no cure for Friedreich's ataxia. Clinically, FA mainly combines balance, movement coordination, articulation (dysarthria) with cardiac involvement and sometimes diabetes . After a few years of evolution, walking is no longer possible. Recent data ; also indicate disturbances in information processing and cognitive functioning. In short, FA involves adolescents who progressively lose walking, writing and speech for some; however, each patient progresses differently with respect to the disease, and this is the case with respect to motor and cognitive symptoms.
The aim of this observational study is to learn about how muscle dimensions of the pelvic floor measured during pregnancy in primigravida impact birth mecanics and mode of delivery. Tha main aims are to 1. Explore associations between mode of delivery and hiatal dimensions measured by transperineal ultrasound antenatally and 2. Explore the association between duration of 2nd stage of labour and hiatal dimensions. A pelvic floor ultrasound examination will be performed between pregnancy week 12 and 20 and levator ani muscle hiatal dimensions will be compared between women having a normal vaginal delivery and women with emergency cesarean or operative vaginal deliveries.
Cerebellar ataxia (CA) is a collection of signs and symptoms caused by cerebellar dysfunction, which can be the result of different disease processes including hereditary and acquired conditions. High incidence of falls is reported in people with CA due to poor balance while walking. Therefore, it is crucial to assess the balance of people with CA to identify potential fallers. There are some clinical tests commonly used for assessing the balance of people with CA, including both generic measures of balance and ataxia-specific rating scales. The current best balance outcome measures for CA includes Berg Balance Scale (BBS), Timed Up and Go test (TUG), and the balance related items in Scale for the assessment and rating of ataxia (SARA). TUG is commonly used in clinical settings for the assessment of mobility and fall risk of individuals. However, a study done by Winser et. al (2017) found that the correlation between TUG and ataxia rating scales (SARA and ICARS) is only moderate. This indicates that the gait speed and functional mobility findings of TUG might not truly reflect the balance deficits of CA. Therefore, our study will develop a modified TUG for the assessment of balance in people with CA. Circular TUG (cTUG) is a modified version of the standard TUG. cTUG is an equilibrium test that challenges subjects' ability to maintain balance in response to the constant change in direction of walking. In cTUG, the subject walks a semi-circular pathway instead of a straight line. Walking in a circular pathway targets at challenging the coordination of people with CA as walking in a circle requires constant change in directions and correction after feedback. It is speculated that the cTUG will have better accuracy in predicting the balance and falls risk among people with CA. We will target at recruiting 30 healthy volunteers and 30 individuals with cerebellar ataxia. Besides the cTUG we will also assess disease severity of ataxia using the Scale for the Assessment and Rating of Ataxia (SARA), balance using the Berg Balance Scale, Timed Up and Go test, Sensory Organization test, Limits of Stability test and functional independence using the Barthel Index. For validation of the cTUG, two types of reliability will be examined, including intra-rater reliability and interrater reliability and four types of validity will be assessed, including concurrent validity, convergent validity, discriminant validity, and external validity.
Ataxia Telangiectasia (A-T) is an autosomal recessively inherited neurodegenerative disorder that also has dramatic effects on the immune and endocrine systems. The disorder results from mutations in the A-T mutated gene (ATM) leading to a loss in the production of the ATM protein. The active compound in MBM-01 (4-hydroxy-2,2,6,6-tetramethylpiperidine-1-oxyl) may substitute for the loss of ATM by protecting cells from DNA damage, preventing and reducing oxidative damage, triggering an increase in cellular survival proteins, and preserving the brain and peripheral immune system.
The present study aims to define a protocol of electrical stimulation of the cerebellum via transcranial direct current stimulation (tDCS) combined with a virtual reality protocol to assist the rehabilitation of social skills in adolescents and young adults with childhood ataxia. Taking into account the high neuronal density of the cerebellum, its strong connection with the cerebral cortex, and its involvement in motor, cognitive and affective processes, as well its involvement in social prediction abilities, the investigators hypothesized that excitatory stimulation of the cerebellum might improve social prediction abilities in adolescents and young adults with childhood ataxia. Moreover, as suggested by previous studies investigating the effect of tDCS in paediatric population, the investigators expected that tDCS will be safe and well tolerated. Such a result would encourage the use of non-invasive brain stimulation in the rehabilitation of social skills in childhood ataxia.
Autoimmune encephalitis (AE) are characterized by subacute onset of memory deficits, altered mental status or psychiatric symptoms, frequently associated with seizures, inflammatory cerebrospinal fluid and in cases with prominent limbic involvement, typical magnetic resonance imaging. Several autoantibodies (Ab) may be detected in AE, although its detection is not mandatory to establish a diagnosis. These Ab mainly recognize different synaptic and cell-surface proteins in the central nervous system, and are thought to be pathogenic as they alter the normal location or function of its antigens. The primary trigger of the immune response is unknown for most of AE. In addition to acquired susceptibility, genetic predisposition may also be important in the pathogenesis of AE. Human leukocyte antigen (HLA) is the genetic factor most frequently associated with autoimmune diseases, due to its genetic complexity and key role in the adaptive immune response. The aim of the study is to describe HLA profile in three groups of autoimmune encephalitis and related disorders: anti-LGI1, anti-CASPR2 and anti-GAD neurological diseases.
Neurodegenerative ataxia represents a group of disabling diseases. No effective treatment is currently available for them. Currently, studies are going on the effectiveness of noninvasive neurostimulation in neurodegenerative diseases. Transcranial pulsed current stimulation (tPCS) is a new modality of noninvasive neurostimulation. The investigators have planned to study the efficacy of tPCS in these patients of neurodegenerative ataxia. Patients will be first examined clinically along with the rating of ataxia, assessment of upper limb coordination and speech as per protocol. Quantitative Electroencephalography (qEEG) and gait analysis will be done as per protocol. Next, a single session of 20 min non-invasive stimulation will be given via tPCS or sham stimulation. Stimulation will be given to cerebellum and dorsal spinal cord. After 20 mins of stimulation, re-assessment will be done using the same tools mentioned pre-stimulation.
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.
The purpose of this study is verify the safety and efficacy of Human Umbilical Cord Mesenchymal Stem Cells (UC-MSC) therapy for patients with Spinocerebellar Ataxia, and in addition, explore the possible mechanisms of UC-MSC therapy in Spinocerebellar Ataxia.
Objective: To compare the effectiveness of EEG biofeedback mental attention-neuromuscular training (AT-NMT), neuromuscular training (NMT) alone, EEG biofeedback mental attention training (AT) alone, and no intervention for improving reactive balance performance among children with developmental coordination disorder (DCD). Design: A single-blinded, randomized controlled clinical trial. Sample: 172 children with DCD. Interventions: AT-NMT, NMT, AT, or no intervention for 12 weeks. Major outcomes: Outcomes will be evaluated at baseline, post-intervention, and 3-month follow-up. A motor control test (MCT) will give a composite latency score, prefrontal cortex EEG recordings during MCT will measure the mental attention level, and surface electromyography recordings during MCT will indicate the lower limb muscle onset latency.