Thalamus and focal to bilateral seizures: A multiscale cognitive imaging study.

Authors

Lorenzo Caciagli, UCL Queen Square Institute of Neurology
Luke A Allen, Epilepsy Society, Chalfont St Peter
Xiaosong He, University of Pennsylvania
Karin Trimmel, University of Pennsylvania
Sjoerd B Vos, University of Pennsylvania
Maria Centeno, University of Pennsylvania
Marian Galovic, University of Pennsylvania
Meneka K Sidhu, University of Pennsylvania
Pamela J Thompson, Medical University of Vienna
Danielle S Bassett, University College London
Gavin P Winston, University Hospital Zurich, Switzerland
John S Duncan, Santa Fe Institute
Matthias J Koepp, Queen's University, Kingston, Canada
Michael R Sperling, Thomas Jefferson UniversityFollow

Document Type

Article

Publication Date

10-27-2020

Comments

This is the published version of the article from the journal Neurology, 2020 Oct. 27;95(17):e2427-e2441.

The article can also be found at the publishers website: http://doi.org/10.1212/WNL.0000000000010645.

Copyright. The Authors

Abstract

OBJECTIVE: To investigate the functional correlates of recurrent secondarily generalized seizures in temporal lobe epilepsy (TLE) using task-based fMRI as a framework to test for epilepsy-specific network rearrangements. Because the thalamus modulates propagation of temporal lobe onset seizures and promotes cortical synchronization during cognition, we hypothesized that occurrence of secondarily generalized seizures, i.e., focal to bilateral tonic-clonic seizures (FBTCS), would relate to thalamic dysfunction, altered connectivity, and whole-brain network centrality.

METHODS: FBTCS occur in a third of patients with TLE and are a major determinant of disease severity. In this cross-sectional study, we analyzed 113 patients with drug-resistant TLE (55 left/58 right), who performed a verbal fluency fMRI task that elicited robust thalamic activation. Thirty-three patients (29%) had experienced at least one FBTCS in the year preceding the investigation. We compared patients with TLE-FBTCS to those without FBTCS via a multiscale approach, entailing analysis of statistical parametric mapping (SPM) 12-derived measures of activation, task-modulated thalamic functional connectivity (psychophysiologic interaction), and graph-theoretical metrics of centrality.

RESULTS: Individuals with TLE-FBTCS had less task-related activation of bilateral thalamus, with left-sided emphasis, and left hippocampus than those without FBTCS. In TLE-FBTCS, we also found greater task-related thalamotemporal and thalamomotor connectivity, and higher thalamic degree and betweenness centrality. Receiver operating characteristic curves, based on a combined thalamic functional marker, accurately discriminated individuals with and without FBTCS.

CONCLUSIONS: In TLE-FBTCS, impaired task-related thalamic recruitment coexists with enhanced thalamotemporal connectivity and whole-brain thalamic network embedding. Altered thalamic functional profiles are proposed as imaging biomarkers of active secondary generalization.

Recommended Citation

Caciagli, Lorenzo; Allen, Luke A; He, Xiaosong; Trimmel, Karin; Vos, Sjoerd B; Centeno, Maria; Galovic, Marian; Sidhu, Meneka K; Thompson, Pamela J; Bassett, Danielle S; Winston, Gavin P; Duncan, John S; Koepp, Matthias J; and Sperling, Michael R, "Thalamus and focal to bilateral seizures: A multiscale cognitive imaging study." (2020). Department of Neurology Faculty Papers. Paper 225.
https://jdc.jefferson.edu/neurologyfp/225

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

PubMed ID

32847951

Language

English