Remodeling of brain morphology in temporal lobe epilepsy.

Détails

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Etat: Public
Version: Final published version
Licence: CC BY 4.0
ID Serval
serval:BIB_3FA1440B13BD
Type
Article: article d'un périodique ou d'un magazine.
Collection
Publications
Institution
Titre
Remodeling of brain morphology in temporal lobe epilepsy.
Périodique
Brain and behavior
Auteur⸱e⸱s
Roggenhofer E., Muller S., Santarnecchi E., Melie-Garcia L., Wiest R., Kherif F., Draganski B.
ISSN
2162-3279 (Electronic)
Statut éditorial
Publié
Date de publication
11/2020
Peer-reviewed
Oui
Volume
10
Numéro
11
Pages
e01825
Langue
anglais
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: ppublish
Résumé
Mesial temporal lobe epilepsy (TLE) is one of the most widespread neurological network disorders. Computational anatomy MRI studies demonstrate a robust pattern of cortical volume loss. Most statistical analyses provide information about localization of significant focal differences in a segregationist way. Multivariate Bayesian modeling provides a framework allowing inferences about inter-regional dependencies. We adopt this approach to answer following questions: Which structures within a pattern of dynamic epilepsy-associated brain anatomy reorganization best predict TLE pathology. Do these structures differ between TLE subtypes?
We acquire clinical and MRI data from TLE patients with and without hippocampus sclerosis (n = 128) additional to healthy volunteers (n = 120). MRI data were analyzed in the computational anatomy framework of SPM12 using classical mass-univariate analysis followed by multivariate Bayesian modeling.
After obtaining TLE-associated brain anatomy pattern, we estimate predictive power for disease and TLE subtypes using Bayesian model selection and comparison. We show that ipsilateral para-/hippocampal regions contribute most to disease-related differences between TLE and healthy controls independent of TLE laterality and subtype. Prefrontal cortical changes are more discriminative for left-sided TLE, whereas thalamus and temporal pole for right-sided TLE. The presence of hippocampus sclerosis was linked to stronger involvement of thalamus and temporal lobe regions; frontoparietal involvement was predominant in absence of sclerosis.
Our topology inferences on brain anatomy demonstrate a differential contribution of structures within limbic and extralimbic circuits linked to main effects of TLE and hippocampal sclerosis. We interpret our results as evidence for TLE-related spatial modulation of anatomical networks.
Mots-clé
Bayes Theorem, Brain/diagnostic imaging, Brain/pathology, Epilepsy, Temporal Lobe/diagnostic imaging, Functional Laterality, Hippocampus/diagnostic imaging, Hippocampus/pathology, Humans, Magnetic Resonance Imaging, Sclerosis/diagnostic imaging, Sclerosis/pathology, BMS, Bayesian model selection, MVB, computational anatomy, hippocampus, magnetic resonance imaging, multivariate Bayesian modeling, temporal lobe epilepsy
Pubmed
Web of science
Open Access
Oui
Création de la notice
28/09/2020 11:53
Dernière modification de la notice
23/03/2023 6:53
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