Antoine Duquette scite author profile

Senataxin recently was identified as the mutated gene in ataxia-oculomotor apraxia 2, which is characterized by ataxia, oculomotor apraxia, and increased alpha-fetoprotein levels. In this study, we evaluated 24 ataxic patients from 10 French-Canadian families. All cases have a homogeneous phenotype consisting of a progressive ataxia appearing between 2 and 20 (mean age, 14.8) years of age with associated dysarthria, saccadic ocular pursuit, distal amyotrophy, sensory and motor neuropathy, and increased alpha-fetoprotein levels but absence of oculomotor apraxia. Linkage disequilibrium was observed with markers in the ataxia-oculomotor apraxia 2 locus on chromosome 9q34. We have identified four mutations in senataxin in the French-Canadian population including two novel missense mutations: the 5927T-->G mutation changes the leucine encoded by codon 1976 to an arginine in the helicase domain (L1976R), and the 193G-->A mutation changes a glutamic acid encoded by codon 65 into a lysine in the N-terminal domain of the protein (E65K). The common L1976R mutation is shared by 17 of 20 (85%) carrier chromosomes. The study of this large French-Canadian cohort better defines the phenotype of this ataxia and presents two novel mutations in senataxin including the more common founder mutation in the French-Canadian population.

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Safety and efficacy of tilavonemab in progressive supranuclear palsy: a phase 2, randomised, placebo-controlled trial

Höglinger¹,

Litvan²,

Mendonça³

et al. 2021

The Lancet Neurology

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Natural History of Friedreich Ataxia

et al. 2022

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Background– The understanding of the natural history of Friedreich's ataxia has improved considerably recently, but patterns of neurologic deterioration are not fully clarified, compromising the assessment of the clinical relevance of effects and guidance for study design. The goal of this work was to acknowledge the broad genetic diversity of the population, especially with respect to younger individuals and to provide analyses stratified by age to guide population selection in future studies.Methods– Based on a large natural history study, the Friedreich’s Ataxia Clinical Outcome Measures study (FACOMS) that at the current data cut enrolled 1115 participants, followed up for 5287 yearly visits, we present results from the modified Friedreich’s Ataxia Rating Scale and its sub scores. Secondary outcomes included the patient-reported activities of daily living scale, the timed 25-foot walk and the 9-hole peg test. Long-term progression was modeled using slope analyses within Early, Typical, Intermediate and Late Onset Friedreich's Ataxia. To reflect recruitment in clinical trials, short term changes were analyzed within age-based sub-populations. All analyses were stratified by ambulation status.Findings– Long term progression models stratified by disease severity indicated highly differential disease progression, especially at earlier ages of onset. In the ambulatory phase, decline was driven by axial items assessed by the Upright Stability sub score of the mFARS. The analyses of short-term changes showed slower progression with increasing population age, as a result of decreasing genetic severity. Future clinical studies could reduce population diversity, inter-patient variability, and the risk of imbalanced treatment groups by selecting the study population based on the functional capacity (e.g., ambulatory status) and by strict age-based stratification.Interpretation– Understanding of the diversity within Friedreich's ataxia populations and their patterns of functional decline provides an essential foundation for future clinical trial design including patient selection and facilitates the interpretation of the clinical relevance of progression detected in Friedreich's ataxia.

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