Zhang Yan, Wang Shuo, Zhuo Yan, Yang Ming-Qi, Zhao Yuan-Li, Zhang Dong, Wang Rong, Xu Long, Wang Bo, Chen Lin, Zhao Ji-Zong
Department of Neurosurgery, Beijing Tiantan Hospital, Capital Medical University, Beijing 100050, China.
Zhonghua Yi Xue Za Zhi. 2008 Jan 1;88(1):2-6.
To investigate the reliability and clinical value of functional magnetic resonance imaging (fMRI)-integrated neuronavigation in minimally invasive neurosurgery and protection of brain function. We demonstrate the correlation between the lesion-to-fMRI activation distance and occurrence of new postoperative deficit.
fMRI-integrated neuronavigation was used for minimally invasive neurosurgery in 20 patients with intracranial lesions located in or near eloquent brain areas. During standardized paradigms for hand, foot, and tongue movement, language and visual activation, echo-planar imaging T2 blood oxygen level dependent sequences were acquired by Siemens Medical Systems Trio 3.0 T and processed with SPM2. Neuronavigation was performed with Stealth station.
fMRI data was integrated into neuronavigation successfully in all cases, functional neuronavigation with integration of fMRI allowed easy and precise identification of the eloquent brain areas and lesions except for 1 case for brain shift because of tumor stroke just before the operation. The localization of the tumor was corrected by intraoperative ultrasonography. Gross total resection was achieved in 18 patients, 2 patients had a subtotal resection. Neurological deterioration was seen in 4 patients, tumors all located in eloquent brain areas, 2 patients were recovered in 3 months the morbidity was 10.0%. The distance of a lesion to fMRI activation was more than 10 mm in 14 cases. The functional maps were located in left Brodmann's 9, 46, 17, 18 and 19 areas in 11 cases when the patients reading and understanding the Chinese words.
Functional neuronavigation with integration of fMRI allows precise identification of the eloquent brain areas protects the brain function and decreases the morbidity especially for Chinese patients because of our special functional area of language. Our data suggest that the distance of a lesion to fMRI activation was more than 10 mm, complete resection can be achieved safely.
探讨功能磁共振成像(fMRI)融合神经导航在微创神经外科手术及脑功能保护中的可靠性和临床价值。我们展示了病变与fMRI激活距离与术后新缺损发生之间的相关性。
对20例位于明确脑区或其附近的颅内病变患者,采用fMRI融合神经导航进行微创神经外科手术。在手部、足部和舌部运动、语言和视觉激活的标准化范式期间,使用西门子医疗系统Trio 3.0 T获取回波平面成像T2血氧水平依赖序列,并使用SPM2进行处理。使用Stealth导航仪进行神经导航。
所有病例均成功将fMRI数据整合到神经导航中,除1例因术前肿瘤卒中导致脑移位外,fMRI融合的功能神经导航能够轻松、精确地识别明确脑区和病变。术中超声校正了肿瘤的定位。18例患者实现了肿瘤全切除,2例患者次全切除。4例患者出现神经功能恶化,肿瘤均位于明确脑区,2例患者在3个月内恢复,发病率为10.0%。14例病变与fMRI激活的距离超过10 mm。11例患者在阅读和理解中文单词时,功能图谱位于左侧布罗德曼9区、46区、17区、18区和19区。
fMRI融合的功能神经导航能够精确识别明确脑区,保护脑功能并降低发病率,尤其是对于中国患者,因为我们有特殊的语言功能区。我们的数据表明,病变与fMRI激活的距离超过10 mm时,可以安全地实现完整切除。