The usefulness of 3-dimensional (3D) visualization of subdural electrodes for presurgical evaluation of epileptic patients Related to Eloquent Cortices
10.3969/j.issn.1006-5725.2014.06.010
- VernacularTitle:颅内电极三维重建在涉及脑功能区癫痫术前评估中的应用
- Author:
Jiandong JIANG
;
Zhiying GAO
;
Ping ZHONG
;
Dengke GAO
;
Zhihong LIN
;
Li LI
;
Yi YAO
;
Xiaobin ZHANG
;
Lingdan XIONG
- Publication Type:Journal Article
- Keywords:
Subdural electrodes;
Epilepsy surgery;
3-D localization;
Eloquent cortices;
Coregistration
- From:
The Journal of Practical Medicine
2014;(6):865-868
- CountryChina
- Language:Chinese
-
Abstract:
Objective Introduce a technique for creating 3-dimensional (3D) brain models of subdural electrodes , ideal for demonstrating the space-relationship of seizure localization and eloquent cortices , and discuss its usefulness for presurgical evaluation of epileptic patients. Methods Patients with medically intractable epilepsy were underwent a thorough preoperative MR brain scan including a T1-weighted high-resolution 3D sequence. Intraoperative photographs were taken with the digital camera. After the surgical implantation of subdural electrodes for epileptic zone localization , the thin-slice CT scan of the electrodes were taken and coregistered to preoperative brain 3D MR images in the Medtronic StealthMerge software environment. After the iEEG monitoring , multiple habitual seizures were recorded , eloquent areas were also identified by electrical stimulation of the cortex. The epileptic zone and the eloquent areas were marked on the subdural electrodes respectively. Then, 3D tessellations of the epileptic zone and the eloquent areas were rendered. Results Six patients (4 male, 2 female) were enrolled in this study. The mean time of iEEG monitoring was 13.7 days. After the coregistration of postoperative CT with preoperative 3D MRI , the 3D stereoscopic reconstruction provided an accurate representation of the implanted electrodes with highly detailed visualization of the underlying anatomy. The visual comparison between 3D reconstructions and intraoperative photographs indicated a good correspondence. The patients were followed for 3 to 6 months after the secondary operation , and had continuing improvement in seizure control. Conclusions The results indicate that the 3D reconstruction of subdural electrodes can reveal the precise localization of subdural electrodes , and can be useful for the presurgical evaluation of epileptic patients.
