van Heumen Saskia, Moreau Jeremy T, Simard-Tremblay Elisabeth, Albrecht Steffen, Dudley Roy Wr, Baillet Sylvain
McConnell Brain Imaging Centre, Montreal Neurological Institute and Hospital, McGill University, Montreal, QC, Canada.
Department of Pediatric Surgery, Division of Neurosurgery, Montreal Children's Hospital, Montreal, QC, Canada.
Front Hum Neurosci. 2021 Mar 4;15:646426. doi: 10.3389/fnhum.2021.646426. eCollection 2021.
Successful surgical treatment of patients with focal drug-resistant epilepsy remains challenging, especially in cases for which it is difficult to define the area of cortex from which seizures originate, the seizure onset zone (SOZ). Various diagnostic methods are needed to select surgical candidates and determine the extent of resection. Interictal magnetoencephalography (MEG) with source imaging has proven to be useful for presurgical evaluation, but the use of ictal MEG data remains limited. The purpose of the present study was to determine whether pre-ictal variations of spectral properties of neural activity from ictal MEG recordings are predictive of SOZ location.We performed a 4 h overnight MEG recording in an 8-year-old child with drug-resistant focal epilepsy of suspected right fronto-temporal origin and captured one ~45-s seizure. The patient underwent a right temporal resection from the anterior temporal neocortex and amygdala to the mid-posterior temporal neocortex, sparing the hippocampus proper. She remains seizure-free 21 months postoperatively. The histopathological assessment confirmed frank focal cortical dysplasia (FCD) type IIa in the MEG-defined SOZ, which was based on source imaging of averaged ictal spikes at seizure onset. We investigated temporal changes (inter-ictal, pre-ictal, and ictal periods) together with spatial differences (SOZ vs. control regions) in spectral parameters of background brain activity, namely the aperiodic broadband offset and slope, and assessed how they confounded the interpretation of apparent variations of signal power in typical electrophysiological bands. Our data show that the SOZ was associated with a higher aperiodic offset and exponent during the seizure compared to control regions. Both parameters increased in all regions from 2 min before the seizure onwards. Regions anatomically closer to the SOZ also expressed higher values compared to contralateral regions, potentially indicating ictal spread. We also show that narrow-band power changes were caused by these fluctuations in the aperiodic component of ongoing brain activity. Our results indicate that the broadband aperiodic component of ongoing brain activity cannot be reduced to background noise of no physiological interest, and rather may be indicative of the neuropathophysiology of the SOZ. We believe these findings will inspire future studies of ictal MEG cases and confirm their significance.
成功治疗局灶性耐药性癫痫患者仍然具有挑战性,尤其是在难以确定癫痫发作起源的皮质区域即癫痫发作起始区(SOZ)的情况下。需要各种诊断方法来选择手术候选者并确定切除范围。发作间期脑磁图(MEG)结合源成像已被证明对术前评估有用,但发作期MEG数据的应用仍然有限。本研究的目的是确定发作期MEG记录中神经活动频谱特性的发作前期变化是否可预测SOZ的位置。我们对一名8岁的疑似右额颞叶起源的耐药性局灶性癫痫患儿进行了4小时的夜间MEG记录,并捕捉到一次约45秒的癫痫发作。该患者接受了从颞前新皮质和杏仁核到颞中后新皮质的右侧颞叶切除术,保留了真正的海马体。术后21个月她无癫痫发作。组织病理学评估在MEG定义的SOZ中证实了明确的IIa型局灶性皮质发育异常(FCD),该SOZ基于癫痫发作起始时平均发作期棘波的源成像。我们研究了背景脑活动频谱参数(即非周期性宽带偏移和斜率)在时间上的变化(发作间期、发作前期和发作期)以及空间上的差异(SOZ与对照区域),并评估了它们如何混淆对典型电生理频段中信号功率明显变化的解释。我们的数据表明,与对照区域相比,发作期SOZ与更高的非周期性偏移和指数相关。从癫痫发作前2分钟起,所有区域的这两个参数均增加。与对侧区域相比,在解剖学上更靠近SOZ的区域也表现出更高的值,这可能表明发作期扩散。我们还表明,窄带功率变化是由持续脑活动的非周期性成分的这些波动引起的。我们的结果表明,持续脑活动的宽带非周期性成分不能简化为无生理意义的背景噪声,而可能指示SOZ的神经病理生理学。我们相信这些发现将激发未来对发作期MEG病例的研究并证实其重要性。
