Marco Michelutti, Hans-Jürgen Huppertz, Heiko Volkmann, Sarah Anderl-Straub, Daniele Urso, Benedetta Tafuri, Salvatore Nigro, Paolo Manganotti, Leonie Werner, Jolina Lombardi, Markus Otto, Giancarlo Logroscino, Hans-Peter Müller, Jan Kassubek
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引用次数: 0
Abstract
Background: The non-fluent (nfPPA) and semantic (svPPA) variants of primary progressive aphasia exhibit distinct clinical features. We investigated whether diffusion tensor imaging (DTI) and atlas-based volumetry (ABV) could reveal divergent patterns of longitudinal changes in brain white matter microstructure and gray matter volumes.
Methods: MRI datasets from 29 nfPPA, 27 svPPA, and 39 controls were analyzed. White matter fractional anisotropy (FA) differences were assessed using unbiased Whole Brain-based Spatial Statistics (WBSS) and Tract-Wise Fractional Anisotropy Statistics (TFAS). Gray matter volumetric differences were calculated by Atlas-Based Volumetry (ABV). A subset of 10 nfPPA and 6 svPPA patients underwent longitudinal MRI at 12 months. FA maps were correlated with disease severity (FTLD-CDR sum of boxes). A random forest classifier validated tracts of interest (TOI) and structures of interest (SOIs) selection as a proof-of-concept.
Results: At baseline, nfPPA showed frontal, callosal, and temporal white matter degeneration, while the left inferior longitudinal fasciculus (ILF) was predominantly involved in svPPA. Longitudinally, nfPPA exhibited frontal, callosal, and posterior temporal progression, while svPPA showed localized antero-posterior ILF progression. ABV aligned with the DTI analyses, demonstrating volumetric reductions in the frontal lobe for nfPPA and in temporal lobe and subcortical limbic structures in svPPA. Sub-clusters of white matter damage progression correlated with worsening FTLD-CDR scores. Random forest analysis identified the most discriminative TOIs and SOIs.
Conclusions: Distinct degeneration patterns emerged across nfPPA and svPPA, supporting early differential diagnosis and correlating with disease worsening. These findings support the utility of combined DTI and ABV in tracking disease progression.
期刊介绍:
The Journal of Neurology is an international peer-reviewed journal which provides a source for publishing original communications and reviews on clinical neurology covering the whole field.
In addition, Letters to the Editors serve as a forum for clinical cases and the exchange of ideas which highlight important new findings. A section on Neurological progress serves to summarise the major findings in certain fields of neurology. Commentaries on new developments in clinical neuroscience, which may be commissioned or submitted, are published as editorials.
Every neurologist interested in the current diagnosis and treatment of neurological disorders needs access to the information contained in this valuable journal.
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