The exciting news about the US FDA approval of omaveloxolone as the first-ever drug to be approved for an inherited ataxia is welcome news for patients and families that deal with this devastating disease as well as for health care providers and investigators with an interest in this and other rare diseases. This event is the culmination of long and fruitful collaboration between patients, their families, clinicians, laboratory researchers, patient advocacy organizations, industry, and regulatory agencies. The process has generated intense discussion about outcome measures, biomarkers, trial design, and the nature of approval process for such diseases. It also has brought hope and enthusiasm for increasingly better therapies for genetic diseases in general.
Thursday, May 25, 2023
A Milestone in the Treatment of Ataxias: Approval of Omaveloxolone for Friedreich Ataxia
Subramony SH, Lynch DL. A Milestone in the Treatment of Ataxias: Approval of Omaveloxolone for Friedreich Ataxia. Cerebellum (London, England). 2023 May. DOI: 10.1007/s12311-023-01568-8. PMID: 37219716.
Characterisation of the Cognitive Profile of Patients Suffering From Friedreich's Ataxia (CPCAF)
ClinicalTrials.gov Identifier: NCT05874388. First Posted: May 24, 2023. Sponsors and Collaborators: Institut National de la Santé Et de la Recherche Médicale, France
The role of behavioural and cognitive assessment in the clinical trial The effectiveness of a treatment is ultimately determined by the elimination of the physiological cause of the disease and the alleviation of the symptoms that patients suffer. However, new treatments rarely eliminate all causes and symptoms of the disease. As long as the effectiveness of a treatment is unknown, it is subtle changes in parameters that decide whether the approach taken is worth pursuing. For a clinical trial which is supposed to evaluate the effectiveness of a treatment for Friedreich's Ataxia, it is therefore necessary to evaluate subtle changes in the functioning of the motor and cognitive system induced by the treatment. For this reason, the project is assembling a battery of tests that quantify the most important aspects of motor, cognitive and speech function in patients with FA. These tests are designed with the specific needs of FA patients in mind, i.e. on the one hand, the tests assess functions that are particularly important in view of the symptoms of Friedreich's disease indicated in the scientific literature, and on the other hand, the psychometric characteristics of the tests are adapted to the general abilities of FA patients. In this respect, it is important to point out that the expansion of the GAA repetition in people with Friedreich's disease varies from 150 to 1,000 triples (compared to 7 to 25 in the rest of the population), and that this large variation in the genotype of FA patients could potentially influence the cognitive profile of the participants. Previous studies have suggested the relationship between the number of repeats of the GAA triplet of the FXN gene and performance in cognitive assessment tests. Specifically, while in FA patients both alleles of the FXN gene contain an unusually high number of GAA repeats, performance in cognitive tests would correlate with the number of GAA repeats in the allele that contains fewer such repeats. Using this test battery, we are therefore able to achieve our main objective, i.e. to characterise the cognitive profile of FA patients as a function of the number of GAA triplet repeats of the FXN gene. Specifically, the test battery will establish whether motor, executive and speech symptoms affect patients differently according to their particular genetic characteristics.
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