Specific Oscillatory Power Changes and Their Efficacy for Determining Laterality in Mesial Temporal Lobe Epilepsy: A Magnetoencephalographic Study.

Yuta Tanoue,Toshiyuki Kawashima,Naohiro Tsuyuguchi,Hideyuki Hoshi,Yoshihito Shigihara,Takehiro Uda,Kosuke Nakajo,Takeo Goto

doi:10.3389/fneur.2021.617291

Abstract

Appropriate determination of the epileptic focus and its laterality are important for the diagnosis of mesial temporal lobe epilepsy (MTLE). The aims of this study are to establish a specific oscillatory distribution and laterality of the oscillatory power in unilateral MTLE with frequency analysis of magnetoencephalography (MEG), and to confirm their potential to carry significant information for determining lateralization of the epileptic focus. Thirty-five patients with MTLE [left (LtMTLE), 16; right (RtMTLE), 19] and 102 healthy control volunteers (CTR) were enrolled. Cortical oscillatory powers were compared among the groups by contrasting the source images using a one-way ANOVA model for each frequency band. Further, to compare the lateralization of regional oscillatory powers between LtMTLEs and RtMTLEs, the laterality index (LI) was calculated for four brain regions (frontal, temporal, parietal, and occipital) in each frequency band, which were compared between patient groups (LtMTLE, RtMTLE, and CTR), and used for machine learning prediction of the groups with support vector machine (SVM) with linear kernel function. Significant oscillatory power differences between MTLE and CTR were found in certain areas. In the theta to high-frequency oscillation bands, there were marked increases in the parietal lobe, especially on the left side, in LtMTLE. In the theta, alpha, and high-gamma bands, there were marked increases in the parietal lobe, especially on the right side in RtMTLE. Compared with CTR, LIs were significantly higher in 24/28 regions in LtMTLE, but lower in 4/28 regions and higher in 10/28 regions in RtMTLE. LI at the temporal lobe in the theta band was significantly higher in LtMTLE and significantly lower in RtMTLE. Comparing LtMTLE and RtMTLE, there were significant LI differences in most regions and frequencies (21/28 regions). In all frequency bands, there were significant differences between LtMTLE and RtMTLE in the temporal and parietal lobes. The leave-one-out cross-validation of the linear-SVM showed the classification accuracy to be over 91%, where the model had high specificity over 96% and mild sensitivity ~68–75%. Using MEG frequency analysis, the characteristics of the oscillatory power distribution in the MTLE were demonstrated. Compared with CTR, LIs shifted to the side of the epileptic focus in the temporal lobe in the theta band. The machine learning approach also confirmed that LIs have significant predictive ability in the lateralization of the epileptic focus. These results provide useful additional information for determining the laterality of the focus.

Highlights

Epilepsy is one of the most common neurological disorders, and surgery is one of the treatment options
There were significant LI differences in all frequency bands at the temporal lobe and parietal lobe, all but delta band at the frontal lobe, and theta, alpha, and low-gamma bands at the occipital lobe between the left and right Mesial temporal lobe epilepsy (MTLE) (Evaluation 2, Figure 3). These results suggested that pathological oscillatory changes due to MTLE were not limited to the affected temporal lobe, but extended to other brain areas
Ricci et al [34] reported that cortical activity is different between patients with temporal lobe epilepsy (TLE) and CTR, and that anti-epileptic medications reduce the gap between them, and regional connectivity from the epileptic focus and global connectivity values were reduced in patients achieving seizure freedom after medical treatment. These results indicated that extratemporal regions, including the parietal lobe, were affected by the excitotoxic effects of epileptic activity in MTLE

Summary

Introduction

Epilepsy is one of the most common neurological disorders, and surgery is one of the treatment options. In the case of MTLE, appropriate determination of the laterality of the epileptic focus is important for successful surgical treatment [5]. Laterality is determined based on multimodal assessments pertaining to specific seizure semiology, the dominant side of interictal epileptic discharges on electroencephalography (EEG), unilateral hippocampal sclerosis or atrophy on magnetic resonance imaging (MRI), and unilateral hypo-accumulation on fluorodeoxyglucose positron emission tomography (FDG-PET) or single-photon emission computed tomography (SPECT). Each of these assessments provides information regarding the laterality of the epileptic focus, which is called a “lateralizing sign” or “lateralizing value” [5–8]. Accumulated “lateralizing signs” from multimodal information such as structural and physiological testing and even ictal video EEG findings are available, it is sometimes challenging to determine the laterality of the epileptic focus

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