4.7 Article

Brain Structure and Degeneration Staging in Friedreich Ataxia: Magnetic Resonance Imaging Volumetrics from the ENIGMA-Ataxia Working Group

Journal

ANNALS OF NEUROLOGY
Volume 90, Issue 4, Pages 570-583

Publisher

WILEY
DOI: 10.1002/ana.26200

Keywords

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Funding

  1. NIH BD2K (Big Data to Knowledge) program [U54 EB020403]
  2. Australian National Health and Medical Research Council [1106533, 1184403]
  3. National Health and Medical Research Council of Australia [1184403, 1106533] Funding Source: NHMRC

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Friedreich ataxia (FRDA) is characterized by progressive movement incoordination and is associated with significant reductions in brain volume in regions such as the brainstem and cerebellum. Differences in brain volume are influenced by factors such as age of onset, disease duration, and severity, with certain regions showing more pronounced volume deficits in more advanced cases. This study highlights the importance of considering the spatial profile and progressive evolution of structural brain abnormalities in individuals with FRDA for further research and clinical trials.
Objective Friedreich ataxia (FRDA) is an inherited neurological disease defined by progressive movement incoordination. We undertook a comprehensive characterization of the spatial profile and progressive evolution of structural brain abnormalities in people with FRDA. Methods A coordinated international analysis of regional brain volume using magnetic resonance imaging data charted the whole-brain profile, interindividual variability, and temporal staging of structural brain differences in 248 individuals with FRDA and 262 healthy controls. Results The brainstem, dentate nucleus region, and superior and inferior cerebellar peduncles showed the greatest reductions in volume relative to controls (Cohen d = 1.5-2.6). Cerebellar gray matter alterations were most pronounced in lobules I-VI (d = 0.8), whereas cerebral differences occurred most prominently in precentral gyri (d = 0.6) and corticospinal tracts (d = 1.4). Earlier onset age predicted less volume in the motor cerebellum (r(max) = 0.35) and peduncles (r(max) = 0.36). Disease duration and severity correlated with volume deficits in the dentate nucleus region, brainstem, and superior/inferior cerebellar peduncles (r(max) = -0.49); subgrouping showed these to be robust and early features of FRDA, and strong candidates for further biomarker validation. Cerebral white matter abnormalities, particularly in corticospinal pathways, emerge as intermediate disease features. Cerebellar and cerebral gray matter loss, principally targeting motor and sensory systems, preferentially manifests later in the disease course. Interpretation FRDA is defined by an evolving spatial profile of neuroanatomical changes beyond primary pathology in the cerebellum and spinal cord, in line with its progressive clinical course. The design, interpretation, and generalization of research studies and clinical trials must consider neuroanatomical staging and associated interindividual variability in brain measures. ANN NEUROL 2021

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