Wang H X, Zhang B Q, Lin J L, Song X C, Ruan J, Liu Y O, He J, Sun Z H, Zhou W J
Epilepsy Center, Yuquan Hospital, Tsinghua University, Beijing 100049, China.
Zhonghua Yi Xue Za Zhi. 2016 Aug 2;96(29):2347-51. doi: 10.3760/cma.j.issn.0376-2491.2016.29.013.
Insular and opercular cortex is involved in complicated physiological function.Insular seizures involve extensive epileptic network, which results in the complex and diverse semiology.Electrical cortical stimulation(ECS) can explore the functional mapping and symptomatogenic zone.
The clinical presurgical evaluation and ECS data of 20 patients whose electrode contacts were located in the insular and opercular were analyzed retrospectively.CT scan/3D MRI data fusion was performed in order to accurately identify and locate each contact and check the electrode trajectory by the MRI images performed after the electrodes were removed.ECS was applied between two contiguous contacts.Stimulation usually lasted for 5 s at 50 Hz(pulse width=0.3 ms). Depending on the area of stimulated cortex, the stimulation intensities ranged from 0.2 to 3.0 mA.The classification of the insular were anterior short gyrus, middle short gyrus, precentral gyrus, postcentral gyrus, posterior long gyrus and insular pole.The classification of the opercular were orbital, frontal, precentral, central, parietal and temporal opercular.
One hundred and six contacts were located in the insular and 51 responses were evoked (48.11%). Four hundred eighteen contacts were located in the insular and 132 responses were evoked (31.58%). We classified the principal responses as somatosensory, pain, auditory, oropharyngeal, speech disturbances and neurovegetative response.Somatosensory responses were mainly evoked in parietal opercular and postcentral gyrus, while pain response distributed sporadically.Auditory were only evoked in temporal opercular(transverse temporal gyri) and posterior long gyrus.Oropharyngeal symptoms were only evoked in central opercular.Speech disturbances were located in precentral and central opercular and neurovegetative responses were mainly evoked in insular pole and middle short gyrus.
These findings may indicate a functional specificity for the insular gyrus and opercular, which contribute to the understanding of anatomo-functional organization and the role in insular and opercular epileptic network.Moreover, it could optimize the implantation strategy for exploring these structures.
岛叶和岛盖皮质参与复杂的生理功能。岛叶癫痫涉及广泛的癫痫网络,导致其临床表现复杂多样。皮质电刺激(ECS)可用于探索功能图谱和致痫区。
回顾性分析20例电极触点位于岛叶和岛盖的患者的临床术前评估及ECS数据。进行CT扫描/3D MRI数据融合,以便通过术后MRI图像准确识别和定位每个触点,并检查电极轨迹。ECS应用于两个相邻触点之间。刺激通常以50 Hz持续5秒(脉冲宽度 = 0.3毫秒)。根据刺激皮质的区域,刺激强度范围为0.2至3.0毫安。岛叶的分类为前短回、中短回、中央前回、中央后回、后长回和岛叶极。岛盖的分类为眶部、额部、中央前、中央、顶叶和颞叶岛盖。
106个触点位于岛叶,诱发反应51次(48.11%)。418个触点位于岛盖,诱发反应132次(31.58%)。我们将主要反应分为躯体感觉、疼痛、听觉、口咽、言语障碍和自主神经反应。躯体感觉反应主要在顶叶岛盖和中央后回诱发,而疼痛反应分布较为分散。听觉反应仅在颞叶岛盖(颞横回)和后长回诱发。口咽症状仅在中央岛盖诱发。言语障碍位于中央前和中央岛盖,自主神经反应主要在岛叶极和中短回诱发。
这些发现可能表明岛叶和岛盖存在功能特异性,这有助于理解解剖功能组织以及在岛叶和岛盖癫痫网络中的作用。此外,它可以优化探索这些结构的植入策略。