Brain Aging in Temporal Lobe Epilepsy: Chronological, Structural, and Functional

Overview

Journal Neuroimage Clin

Publisher Elsevier

Specialties Neurology
Radiology

Date 2020 Feb 15

PMID 32058319

Citations 19

Authors

Gyujoon Hwang

Bruce Hermann

Veena A Nair

Lisa L Conant

Kevin Dabbs

Jed Mathis

Cole J Cook

Charlene N Rivera-Bonet

Rosaleena Mohanty

Gengyan Zhao

Dace N Almane

Andrew Nencka

Elizabeth Felton

Aaron F Struck

Rasmus Birn

Rama Maganti

Colin J Humphries

Manoj Raghavan

Edgar A DeYoe

Barbara B Bendlin

Vivek Prabhakaran

Jeffrey R Binder

Mary E Meyerand

Affiliations

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Abstract

The association of epilepsy with structural brain changes and cognitive abnormalities in midlife has raised concern regarding the possibility of future accelerated brain and cognitive aging and increased risk of later life neurocognitive disorders. To address this issue we examined age-related processes in both structural and functional neuroimaging among individuals with temporal lobe epilepsy (TLE, N = 104) who were participants in the Epilepsy Connectome Project (ECP). Support vector regression (SVR) models were trained from 151 healthy controls and used to predict TLE patients' brain ages. It was found that TLE patients on average have both older structural (+6.6 years) and functional (+8.3 years) brain ages compared to healthy controls. Accelerated functional brain age (functional - chronological age) was mildly correlated (corrected P = 0.07) with complex partial seizure frequency and the number of anti-epileptic drug intake. Functional brain age was a significant correlate of declining cognition (fluid abilities) and partially mediated chronological age-fluid cognition relationships. Chronological age was the only positive predictor of crystallized cognition. Accelerated aging is evident not only in the structural brains of patients with TLE, but also in their functional brains. Understanding the causes of accelerated brain aging in TLE will be clinically important in order to potentially prevent or mitigate their cognitive deficits.

Citing Articles

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Prophylactic senolytic treatment in aged mice reduces seizure severity and improves survival from Status Epilepticus.

Khan T, Hussain A, Casilli T, Frayser L, Cho M, Williams G Aging Cell. 2024; 23(9):e14239.

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Topological Embedding of Human Brain Networks with Applications to Dynamics of Temporal Lobe Epilepsy.

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Chung M, Ramos C, De Paiva F, Mathis J, Prabhakaran V, Nair V Neuroimage. 2023; 284:120436.

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