Rupleen Kaur

MD-PhD Student | Case Western Reserve University

Giant axonal neuropathy: cross sectional analysis of a large natural history cohort.


Journal article


D. Bharucha-Goebel, G. Norato, D. Saade, E. Paredes, Victoria Biancavilla, S. Donkervoort, R. Kaur, T. Lehky, M. Fink, D. Armao, S. Gray, M. Waite, S. Debs, G. Averion, Ying Hu, W. Zein, A. Foley, M. Jain, C. Bönnemann
Brain : a journal of neurology, 2021

Semantic Scholar DOI PubMed
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APA   Click to copy
Bharucha-Goebel, D., Norato, G., Saade, D., Paredes, E., Biancavilla, V., Donkervoort, S., … Bönnemann, C. (2021). Giant axonal neuropathy: cross sectional analysis of a large natural history cohort. Brain : a Journal of Neurology.


Chicago/Turabian   Click to copy
Bharucha-Goebel, D., G. Norato, D. Saade, E. Paredes, Victoria Biancavilla, S. Donkervoort, R. Kaur, et al. “Giant Axonal Neuropathy: Cross Sectional Analysis of a Large Natural History Cohort.” Brain : a journal of neurology (2021).


MLA   Click to copy
Bharucha-Goebel, D., et al. “Giant Axonal Neuropathy: Cross Sectional Analysis of a Large Natural History Cohort.” Brain : a Journal of Neurology, 2021.


BibTeX   Click to copy

@article{d2021a,
  title = {Giant axonal neuropathy: cross sectional analysis of a large natural history cohort.},
  year = {2021},
  journal = {Brain : a journal of neurology},
  author = {Bharucha-Goebel, D. and Norato, G. and Saade, D. and Paredes, E. and Biancavilla, Victoria and Donkervoort, S. and Kaur, R. and Lehky, T. and Fink, M. and Armao, D. and Gray, S. and Waite, M. and Debs, S. and Averion, G. and Hu, Ying and Zein, W. and Foley, A. and Jain, M. and Bönnemann, C.}
}

Abstract

Giant axonal neuropathy (GAN) is an ultra-rare autosomal recessive, progressive neurodegenerative disease with early childhood onset that presents as a prominent sensorimotor neuropathy and commonly progresses to affect both the peripheral nervous system and central nervous system. The disease is caused by biallelic mutations in the GAN gene located on 16q23.2, leading to loss of functional gigaxonin, a substrate specific ubiquitin ligase adapter protein necessary for the regulation of intermediate filament turnover. Here, we report on cross-sectional data from the first study visit of a prospectively collected natural history study of 45 individuals, age range 3-21 years with genetically confirmed giant axonal neuropathy to describe and cross-correlate baseline clinical and functional cohort characteristics. We review causative variants distributed throughout the GAN gene in this cohort and identify a recurrent founder mutation in individuals with giant axonal neuropathy of Mexican descent as well as cases of recurrent uniparental isodisomy. Through cross correlation analysis of measures of strength, motor function, and electrophysiologic markers of disease severity, we identified the Motor Function Measure 32 (MFM-32) to have the strongest correlation across measures and age in individuals with giant axonal neuropathy. We analysed the Motor Function Measure 32 scores as they correspond to age and ambulatory status. Importantly, we identified and characterized a sub cohort of individuals with a milder form of giant axonal neuropathy and with a presentation similar to Charcot-Marie-Tooth disease. Such a clinical presentation is distinct from the classic presentation of giant axonal neuropathy, and we demonstrate how the two groups diverge in performance on the Motor Function Measure 32 and other functional motor scales. We further present data on the first systematic clinical analysis of autonomic impairment in giant axonal neuropathy as performed on a subset of the natural history cohort. Our cohort of individuals with genetically confirmed giant axonal neuropathy is the largest reported to date and highlights the clinical heterogeneity and the unique phenotypic and functional characteristics of giant axonal neuropathy in relation to disease state. The present work is designed to serve as a foundation for a prospective natural history study and functions in concert with the ongoing gene therapy trial for children with giant axonal neuropathy.


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