Integrating dense array EEG in the presurgical evaluation of temporal lobe epilepsy.

ISRN Neurology Pub Date : 2012-01-01 DOI:10.5402/2012/924081
Madoka Yamazaki, Marie Terrill, Ayataka Fujimoto, Takamichi Yamamoto, Don M Tucker
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引用次数: 17

Abstract

Purpose. To evaluate the clinical utility of dense array electroencephalography (dEEG) for detecting and localizing interictal spikes in temporal lobe epilepsy. Methods. Simultaneous invasive and noninvasive recordings were performed across two different groups. (1) The first group underwent both noninvasive recording with 128 channels of (scalp) dEEG and invasive sphenoidal electrode recording. (2) The second group underwent both noninvasive recording with 256 channels of (scalp) dEEG and invasive intracranial EEG (icEEG) involving coverage with grids and strips over the lateral and mesial temporal lobe. A noninvasive to noninvasive comparison was made comparing the overall spike detection rate of the dEEG to that of conventional 10/20 EEG. A noninvasive to invasive comparison was made comparing the spike detection rate of dEEG to that of conventional 10/20 EEG plus sphenoidal electrodes. And finally, a noninvasive to invasive evaluation measuring the source localization ability of the dEEG using the icEEG as validation. Results. In the 128-channel dEEG study (1), 90.4% of the interictal spikes detected by the dEEG were not detected in the 10/20 montage. 91% of the dEEG-detected spikes were accurately localized to the medial temporal lobe. In the 256-channel dEEG study (2), 218 of 519 interictal spikes (42%) were detected by dEEG. 85% of these spikes were accurately localized to the medial temporal lobe, close to the position confirmed by subdural electrodes. Conclusion. Dense array EEG may provide more precise information than conventional EEG and has a potential for providing an alternative to sphenoidal electrode monitoring in patients with temporal lobe epilepsy.

Abstract Image

Abstract Image

Abstract Image

整合密集阵列脑电图在颞叶癫痫术前评估中的应用。
目的。目的探讨密集阵列脑电图(dEEG)在颞叶癫痫发作间期峰检测和定位中的临床应用价值。方法。两组同时进行有创和无创录音。(1)第一组采用128通道头皮dEEG无创记录和有创蝶窦电极记录。(2)第二组采用256通道头皮深度脑电图(deg)和有创脑电图(icEEG)进行无创记录,包括颞叶外侧和内侧的网格和条带覆盖。将dEEG与常规10/20脑电图的总尖峰检出率进行无创与无创对比。将dEEG与常规10/20 EEG加蝶骨电极的峰值检出率进行无创与有创对比。最后,利用icEEG对dEEG的源定位能力进行无创到有创评估。结果。在128通道dEEG研究中(1),在10/20蒙太奇中,dEEG检测到的90.4%的间期尖峰未被检测到。91%的deeg检测到的尖峰准确定位于内侧颞叶。在256通道dEEG研究中(2),519个间期尖峰中有218个(42%)被dEEG检测到。85%的尖峰准确定位于内侧颞叶,接近硬脑膜下电极确认的位置。结论。密集阵列脑电图可以提供比传统脑电图更精确的信息,并有可能为颞叶癫痫患者提供蝶窦电极监测的替代方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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