- 作者:Yunfeng Lua ; Lin Yanga ; Gregory A. Worrellb ; Bin Hea ; binhe@umn.edu
- 关键词:High-density EEG ; Ictal activities ; EEG source imaging ; FINE ; Epilepsy ; Directed transfer function
- 刊名:Clinical Neurophysiology
- 出版年:2012
- 期刊代码:61_13882457
- 类别:med
- 出版时间:July, 2012
- 卷:123
- 期:7
- 页码:1275-1283
- 文件大小:1182 K
Objective
To investigate the usage of a high-density EEG recording system and source imaging technique for localizing seizure activity in patients with medically intractable partial epilepsy.Methods
High-density, 76-channel scalp EEG signals were recorded in 10 patients with partial epilepsy. The patients underwent routine clinical pre-surgical evaluation and all had resective surgery with seizure free outcome. After applying a FINE (first principle vectors) spatio-temporal source localization and DTF (directed transfer function) connectivity analysis approach, ictal sources were imaged. Effects of number of scalp EEG electrodes on the seizure localization were also assessed using 76, 64, 48, 32, and 21 electrodes, respectively.
Results
Surgical resections were used to assess the source imaging results. Results from the 76-channel EEG in the 10 patients showed high correlation with the surgically resected brain regions. The localization of seizure onset zone from 76-channel EEG showed improved source detection accuracy compared to other EEG configurations with fewer electrodes.
Conclusions
FINE together with DTF was able to localize seizure onset zones of partial epilepsy patients. High-density EEG recording can help achieve improved seizure source imaging.
Significance
The present results suggest the promise of high-density EEG and electrical source imaging for noninvasively localizing seizure onset zones.