儿童起病的新皮层局灶性癫痫发作期丘脑 EEG 的特征。
Characteristics of ictal thalamic EEG in pediatric-onset neocortical focal epilepsy.
机构信息
Division of Pediatric Neurology, Department of Pediatrics, UCLA Mattel Children's Hospital, David Geffen School of Medicine, Los Angeles, CA, USA.
Division of Child and Adolescent Psychiatry, Cincinnati Children's Hospital Medical Center, Cincinnati, OH, USA; Department of Psychiatry, University of Cincinnati College of Medicine, Cincinnati, OH, USA; Swartz Center for Computational Neuroscience, Institute for Neural Computation, University of California San Diego, UCSD Medical Center, San Diego, CA, USA.
出版信息
Clin Neurophysiol. 2023 Oct;154:116-125. doi: 10.1016/j.clinph.2023.07.007. Epub 2023 Aug 6.
OBJECTIVE
To characterize ictal EEG change in the centromedian (CM) and anterior nucleus (AN) of the thalamus, using stereoelectroencephalography (SEEG) recordings.
METHODS
Forty habitual seizures were analyzed in nine patients with pediatric-onset neocortical drug-resistant epilepsy who underwent SEEG (age 2-25 y) with thalamic coverage. Both visual and quantitative analysis was used to evaluate ictal EEG signal in the cortex and thalamus. The amplitude and cortico-thalamic latencies of broadband frequencies at ictal onset were measured.
RESULTS
Visual analysis demonstrated consistent detection of ictal EEG changes in both the CM nucleus and AN nucleus with latency to thalamic ictal EEG changes of less than 400 ms in 95% of seizures, with low-voltage fast activity being the most common ictal pattern. Quantitative broadband amplitude analysis showed consistent power changes across the frequency bands, corresponding to ictal EEG onset, while while ictal EEG latency was variable from -18.0 seconds to 13.2 seconds. There was no significant difference between detection of CM and AN ictal activity on visual or amplitude analysis. Four patients with subsequent thalamic responsive neurostimulation (RNS) demonstrated ictal EEG changes consistent with SEEG findings.
CONCLUSIONS
Ictal EEG changes were consistently seen at the CM and AN of the thalamus during neocortical seizures.
SIGNIFICANCE
It may be feasible to use a closed-loop system in the thalamus to detect and modulate seizure activity for neocortical epilepsy.
目的
使用立体脑电图(SEEG)记录,对丘脑中央核(CM)和前核(AN)的发作期脑电图变化进行特征描述。
方法
对 9 例儿童期起病、药物难治性新皮层癫痫患者的 40 次习惯性发作进行了分析,这些患者接受了具有丘脑覆盖的 SEEG(年龄 2-25 岁)。同时使用视觉和定量分析来评估皮层和丘脑的发作期脑电图信号。测量了发作起始时宽带频率的振幅和皮质-丘脑潜伏期。
结果
视觉分析显示,95%的发作中 CM 核和 AN 核均能一致检测到发作期 EEG 变化,丘脑发作期 EEG 变化的潜伏期小于 400 ms,最常见的发作模式为低电压快活动。定量宽带振幅分析显示,在整个频带中均存在与发作期 EEG 起始相对应的一致功率变化,而发作期 EEG 潜伏期从-18.0 秒到 13.2 秒不等。视觉或振幅分析均未显示 CM 和 AN 发作活动的检测有显著差异。4 例随后接受丘脑反应性神经刺激(RNS)的患者表现出与 SEEG 发现一致的发作期 EEG 变化。
结论
在新皮层发作期间,CM 和 AN 的丘脑始终可见发作期 EEG 变化。
意义
使用丘脑闭环系统来检测和调节新皮层癫痫的发作活动可能是可行的。
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