Hoshino Tatsuya, Sakatani Kaoru, Katayama Yoichi, Fujiwara Norio, Murata Yoshihiro, Kobayashi Kazutaka, Fukaya Chikashi, Yamamoto Takamitsu
Department of Neurological Surgery, Nihon University School of Medicine, Tokyo 173-8610, Japan.
Surg Neurol. 2005 Sep;64(3):272-5. doi: 10.1016/j.surneu.2004.12.022.
Cortical stimulation via a subdural grid electrode (SGE) is one of the most reliable methods for identifying eloquent areas before surgery. However, the physiological conditions of the cortex during stimulation cannot be monitored electrophysiologically because of electrical artifacts. In the present case, we tested whether or not multichannel near-infrared spectroscopy (NIRS) topography, a noninvasive optical imaging technique, is applicable for monitoring the physiological conditions of the stimulated cortex.
The patient (a 27-year-old right-handed man) suffered from glioma in the left frontal lobe. For preoperative cortical mapping, SGEs were implanted over the left motor cortex before tumor resection. Employing NIRS topography, we undertook 2 dimensional imaging of the changes in oxyhemoglobin (Oxy-Hb) and deoxyhemoglobin (Deoxy-Hb) concentration during electrical stimulation. Five-hertz stimulation with 5 mA at the left-hand area produced a localized increase in Oxy-Hb and a decrease in Deoxy-Hb, associated with slight twitching of the right hand. In contrast, 50-Hz stimulation produced significant increases in both Oxy-Hb and Deoxy-Hb at the stimulation site, and the area with such cerebral blood oxygenation (CBO) changes propagated beyond the hand area associated with prominent muscle contractions of the right upper extremity, suggesting that 50-Hz stimulation caused epileptic discharge.
Near-infrared spectroscopy topography may represent a useful tool for imaging the degree and extent of the physiological effects of electrical stimulation on the cortex, and permits safe and accurate cortical mapping.
通过硬膜下网格电极(SGE)进行皮层刺激是术前识别明确区域最可靠的方法之一。然而,由于电伪迹,刺激期间皮层的生理状况无法通过电生理方法进行监测。在本病例中,我们测试了多通道近红外光谱(NIRS)地形图(一种非侵入性光学成像技术)是否适用于监测受刺激皮层的生理状况。
患者(一名27岁右利手男性)患有左额叶胶质瘤。为进行术前皮层定位,在肿瘤切除前将SGE植入左运动皮层上方。利用NIRS地形图,我们对电刺激期间氧合血红蛋白(Oxy-Hb)和脱氧血红蛋白(Deoxy-Hb)浓度的变化进行了二维成像。在左手区域以5 mA进行5赫兹刺激,导致Oxy-Hb局部增加,Deoxy-Hb减少,同时右手出现轻微抽搐。相比之下,50赫兹刺激在刺激部位导致Oxy-Hb和Deoxy-Hb均显著增加,且脑血氧合(CBO)变化区域超出手部区域,伴有右上肢明显的肌肉收缩,提示50赫兹刺激引发了癫痫放电。
近红外光谱地形图可能是一种用于成像电刺激对皮层生理影响程度和范围的有用工具,并允许进行安全准确的皮层定位。