Murphy Michael A, O'Brien Terence J, Morris Kevin, Cook Mark J
Centre for Clinical Neuroscience and Neurological Research, St. Vincent's Hospital, University of Melbourne, Australia.
J Neurosurg. 2004 Mar;100(3):452-62. doi: 10.3171/jns.2004.100.3.0452.
The aim of this study was to review seizure outcome, imaging modalities used, and complications following surgery in patients with epilepsy who had undergone multimodality image-guided surgery at our institution.
Data from patients with epilepsy who had undergone surgery between April 1999 and October 2001 were reviewed. During this time period, 116 operations were performed in 109 patients with medically refractory epilepsy. Among these patients, 22 were selected to undergo multimodality image-guided surgery primarily on the basis of whether they had no lesion visible on conventional magnetic resonance (MR) imaging sequences, multiple lesions, or one very large lesion that could not be completely resected without the risk of significant postoperative morbidity. A fourth group of patients in whom there was a single lesion in the eloquent cortex, a location associated with a significant risk of postoperative morbidity, was also included in the analysis. This latter group was assessed with the aid of intracranial grid electrodes that were coregistered to the MR image and were used intraoperatively to minimize electrode position error. Other imaging modalities used included positron emission tomography (PET), fluid-attenuated inversion recovery (FLAIR) MR imaging, and subtracted ictal-interictal single-photon positron emission computerized tomography (SPECT) coregistered with MR imaging (SISCOM). After coregistration, images were then downloaded onto an image-guided surgical system and the epileptogenic area was then resected. The mean patient age was 33 years (range 17-46 years), and there was a mean follow up of 27 months (range 14-41 months). Multimodality coregistrations used were as follows: nine PET scans, seven subdural electrode grids, four SISCOM studies, one FLAIR MR image, and one combined PET/subdural grid. Seizure outcome was excellent in 17 patients (77%) and not excellent in five (23%), or favorable in 19 (86%) and unfavorable in three (14%). Six patients (27%) had a transient neurological deficit, one patient (5%) a permanent major deficit, and three patients (15%) a permanent minor deficit. Five patients (24%) had a transient psychiatric problem postoperatively.
Multimodality image-guided surgery offers a new perspective in surgery for epilepsy. Functional imaging modalities previously lateralized and often localized a seizure focus, but did not provide enough anatomical information to resect the epileptogenic zone confidently and safely. The coregistration of these modalities to a volumetric MR image and their incorporation into an image-guided system has allowed surgeons to offer surgery to patients who may not previously have been considered eligible, with outcomes comparable to those in patients with more straightforward lesional epilepsy.
本研究旨在回顾在我院接受多模态影像引导手术的癫痫患者的癫痫发作结果、所使用的成像方式以及术后并发症。
回顾了1999年4月至2001年10月期间接受手术的癫痫患者的数据。在此期间,对109例药物难治性癫痫患者进行了116次手术。在这些患者中,22例主要基于以下情况被选来接受多模态影像引导手术:在传统磁共振(MR)成像序列上无可见病变、有多个病变或有一个非常大的病变,若不切除会有显著术后致残风险。分析还纳入了第四组患者,其优势脑皮质有单个病变,该部位有显著术后致残风险。这后一组患者借助与MR图像配准的颅内栅格电极进行评估,术中使用该电极以尽量减少电极位置误差。所使用的其他成像方式包括正电子发射断层扫描(PET)、液体衰减反转恢复(FLAIR)MR成像以及与MR成像配准的减影发作期 - 发作间期单光子发射计算机断层扫描(SPECT)(SISCOM)。配准后,将图像下载到影像引导手术系统上,然后切除癫痫病灶区。患者平均年龄为33岁(范围17 - 46岁),平均随访27个月(范围14 - 41个月)。所使用的多模态配准如下:9次PET扫描、7个硬膜下电极栅格、4项SISCOM研究、1次FLAIR MR成像以及1次PET/硬膜下栅格联合使用。17例患者(77%)癫痫发作结果良好,5例(23%)不佳,或19例(86%)有利,3例(14%)不利。6例患者(27%)有短暂性神经功能缺损,1例患者(5%)有永久性严重缺损,3例患者(15%)有永久性轻度缺损。5例患者(24%)术后有短暂性精神问题。
多模态影像引导手术为癫痫手术提供了新的视角。以前功能成像方式可使癫痫病灶定位并常常定侧,但未提供足够的解剖学信息来安全、自信地切除癫痫病灶区。将这些成像方式与容积性MR图像配准并纳入影像引导系统,使外科医生能够为以前可能未被认为适合手术的患者提供手术,其结果与病变较简单的癫痫患者相当。
