肌阵挛失张力癫痫（杜斯综合征）中的脑电图-功能磁共振成像

EEG-fMRI in myoclonic astatic epilepsy (Doose syndrome).

作者信息

Moeller Friederike, Groening Kristina, Moehring Jan, Muhle Hiltrud, Wolff Stephan, Jansen Olav, Stephani Ulrich, Siniatchkin Michael

机构信息

From the Department of Neuropediatrics (F.M., K.G., J.M., H.M., U.S.) and Institute of Neuroradiology (S.W., O.J.), Christian-Albrechts-University, Kiel; and University Hospital of Child and Adolescent Psychiatry (M.S.), Johann Wolfgang Goethe-University of Frankfurt, Germany.

出版信息

Neurology. 2014 Apr 29;82(17):1508-13. doi: 10.1212/WNL.0000000000000359. Epub 2014 Apr 2.

DOI:10.1212/WNL.0000000000000359

PMID:24696509

Abstract

OBJECTIVE

To identify neuronal networks underlying generalized spike and wave discharges (GSW) in myoclonic astatic epilepsy (MAE).

METHODS

Simultaneous EEG-fMRI recordings were performed in 13 children with MAE. Individual GSW-associated blood oxygenation level-dependent (BOLD) signal changes were analyzed in every patient. A group analysis was performed to determine common syndrome-specific hemodynamic changes across all patients.

RESULTS

GSW were recorded in 11 patients, all showing GSW-associated BOLD signal changes. Activation was detected in the thalamus (all patients), premotor cortex (6 patients), and putamen (6 patients). Deactivation was found in the default mode areas (7 patients). The group analysis confirmed activations in the thalamus, premotor cortex, putamen, and cerebellum and deactivations in the default mode network.

CONCLUSIONS

In addition to the thalamocortical network, which is commonly found in idiopathic generalized epilepsies, GSW in patients with MAE are characterized by BOLD signal changes in brain structures associated with motor function. The results are in line with animal studies demonstrating that somatosensory cortex, putamen, and cerebellum are involved in the generation of myoclonic seizures. The involvement of these structures might predispose to the typical seizure semiology of myoclonic jerks observed in MAE.

摘要

目的

确定肌阵挛失张力癫痫（MAE）中全身性棘波和慢波放电（GSW）背后的神经网络。

方法

对13例MAE患儿进行同步脑电图-功能磁共振成像（EEG-fMRI）记录。分析每位患者与GSW相关的个体血氧水平依赖（BOLD）信号变化。进行组分析以确定所有患者中常见的综合征特异性血流动力学变化。

结果

11例患者记录到GSW，均显示与GSW相关的BOLD信号变化。在丘脑（所有患者）、运动前皮质（6例患者）和壳核（6例患者）检测到激活。在默认模式区域发现失活（7例患者）。组分析证实丘脑、运动前皮质、壳核和小脑激活，默认模式网络失活。

结论

除了在特发性全身性癫痫中常见的丘脑皮质网络外，MAE患者的GSW特征还在于与运动功能相关的脑结构中的BOLD信号变化。结果与动物研究一致，表明体感皮质、壳核和小脑参与肌阵挛发作的产生。这些结构的参与可能易导致MAE中观察到的典型肌阵挛抽搐发作症状学。

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肌阵挛失张力癫痫（杜斯综合征）中的脑电图-功能磁共振成像

EEG-fMRI in myoclonic astatic epilepsy (Doose syndrome).

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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