View clinical trials related to Cerebellar Ataxia.
Filter by:RADIAL is an algorithm which has been developed following a review of the literature on 67 autosomal recessive cerebellar ataxias (ARCA) and personal clinical experience. Frequency and specificity of each feature were defined for each autosomal recessive cerebellar ataxia, and corresponding prediction scores were assigned. Clinical and paraclinical features of patients are entered into the algorithm, and a patient's total score for each ARCA is calculated, producing a ranking of possible diagnoses. Sensitivity and specificity of the algorithm were assessed by blinded analysis of a multinational cohort of 834 patients with molecularly confirmed autosomal recessive cerebellar ataxia. The performance of the algorithm was assessed versus a blinded panel of autosomal recessive cerebellar ataxia experts. The correct diagnosis was ranked within the top 3 highest-scoring diagnoses at a sensitivity and specificity of >90% for 84% and 91% of the evaluated genes, respectively. Mean sensitivity and specificity of the top 3 highest-scoring diagnoses were 92% and 95%, respectively. Our aim is now to validate in a prospective cohort of ARCA, the performance of RADIAL to predict the correct genetic diagnosis.
To test the variability of specific ribonucleic acid (RNA) and proteins as well as frataxin levels in samples of blood and buccal cells taken directly from patients with Friedreich's ataxia (FRDA) in order to confirm potential new biomarkers of disease in patients with FRDA.
The study will consist of a prospective observation of subjects in a natural history design. Disease progression will be monitored through clinical scales and video-oculography. Participants will be stratified in three groups: ataxic carriers, pre-ataxic carriers and non-carriers (controls). The following clinical scales will be applied in all subjects at baseline and at months 12 and 24: SARA, SCAFI, CCFS, NESSCA, INAS and ICARS. Oculomotor function will be registered using video-oculography (EyeSeeCam, InterAcoustics) at the same time points. Progression rates, effect sizes and responsiveness to change will be established for all parameters and results will be compared between candidate biomarkers.
To evaluate the safety and tolerability of single ascending doses of CTI-1601 in participants with Friedreich's ataxia
Neurodegenerative cerebellar ataxias represent a group of disabling disorders which currently lack effective therapies. Cerebellar transcranial direct current stimulation (tDCS) is a non-invasive technique, which has been demonstrated to modulate cerebellar excitability and improve symptoms in patients with cerebellar ataxias. In this randomized, double-blind, sham-controlled study followed by an open-label phase, the investigators will evaluate whether a repetition of two-weeks' treatment with cerebellar anodal tDCS and spinal cathodal tDCS, after a three months interval, may further outlast clinical improvement in patients with neurodegenerative cerebellar ataxia and can modulate cerebello-motor connectivity, at short and long term.
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.
The purpose of this study is to assess the Efficacy, Long Term Safety and Tolerability of RT001 in subjects with Friedreich's Ataxia
The field of clinical diagnosis of recessive cerebellar ataxias (ARCA) is particularly complex and Next Generation Sequencing (NGS) techniques have revolutionized this neuro-genetic field. The current challenge is to optimize the analysis of genetic data generated by NGS because: the processing of data remains very laborious; diagnostic yeld less than 50%; the interpretation of the variants sometimes very difficult. For this purpose of optimization, the team of the University Hospital of Strasbourg has developed a computer algorithm based on 124 clinical and para-clinical parameters (derived from the data of the literature), useful to guide the genes to be targeted in priority by genetic analysis, in the context of a suspicion of ARCA (> 60 known genes); this algorithm was validated retrospectively in 834 patients with genetically confirmed ARCA (92% Sense, 95% Spec). However, these 834 patients are often the same as those described in the literature and used for the elaboration of the algorithm. This introduces a bias in the initial evaluation of the algorithm, which therefore requires validation in clinical practice, from a cohort of patients referred for suspected ARCA (with or without a found genetic mutation). At the same time, Montpellier's genetics laboratory has developed a bioinformatic method for the search for copy number variations (CNV) that can be applied in a targeted manner to the genes predicted by the algorithm. The principal aim of this study is the validation of a semi-automated clinical algorithm for NGS molecular diagnosis of ARCA; the secondary objective is to evaluate if the application of this algorithm coupled with a targeted bioinformatic analysis can increase the diagnostic yield of the NGS analysis.
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.
Cerebellar ataxia is a neurologic symptom caused by damage or dysfunction in the cerebellum and its pathways that results in loss of coordination, balance and postural control. There is a high rate (93%) of fallings for this population that could limit daily life activities. Pharmacological interventions are not able to modify the balance, therefore, new approaches to rehabilitate must be studied. ctDCS is a non-invasive brain stimulation that seems to be a new and innovator technique to restore ataxia symptoms. The purpose of this study is to evaluate the effects of ctDCS associated with balance training on cerebellar ataxia patients. A counterbalanced crossover, sham-controlled, triple blind trial will be performed. All subjects will receive the real and sham ctDCS associated to balance training. The anodal ctDCS (2 mA, 20 minutes) or sham (2mA, 30 seconds) will be applied during balance training at Biodex Balance System (BBS). The balance will be the primary outcome and will be evaluated through Posture Control at Biodex Balance System. Ataxia' severity and functional mobility will be the secondary outcomes and will be evaluated by the scale for the assessment and rating of ataxia (SARA) and 10 meters walking test, respectively.