Department of Neurology, Gachon University Gil Hospital, Incheon, Korea.
Tohoku J Exp Med. 2012 Mar;226(3):207-11. doi: 10.1620/tjem.226.207.
The insula, one of the five cerebral lobes of the brain, is located deep within the brain and lies mainly beneath the temporal lobe. Insular epilepsy can be easily confused and misdiagnosed as temporal lobe epilepsy (TLE) because of the similar clinical symptoms and scalp electroencephalography (EEG) findings due to the insula location and neuronal connections with the temporal lobe. Magnetoencephalography (MEG) has higher sensitivity and spatial resolution than scalp EEG, and thus can often identify epileptic discharges not revealed by scalp EEG. Simultaneous scalp EEG and MEG were performed to detect and localize epileptic discharges in two patients known to have insular epilepsy associated with cavernous angioma in the insula. Epileptic discharges were detected as abnormal spikes in the EEG and MEG findings. In Patient 1, the sources of all MEG spikes detected simultaneously by EEG and MEG (E/M-spikes) were localized in the anterior temporal lobe, similar to TLE. In contrast, the sources of all MEG spikes detected only by MEG (M-spikes) were adjacent to the insular lesion. In Patient 2, the sources of all MEG spikes detected simultaneously by EEG and MEG (E/M-spikes) were localized in the anterior temporal lobe. These findings indicate that MEG allows us to detect insular activity that is undetectable by scalp EEG. In conclusion, simultaneous EEG and MEG are helpful for detecting spikes and obtaining additional information about the epileptic origin and propagation in patients with insular epilepsy.
脑岛是大脑的五个脑叶之一,位于大脑深处,主要位于颞叶下方。由于脑岛的位置和与颞叶的神经元连接,使脑岛癫痫很容易与颞叶癫痫(TLE)混淆和误诊,因为它们具有相似的临床症状和头皮脑电图(EEG)发现。脑磁图(MEG)比头皮 EEG 具有更高的灵敏度和空间分辨率,因此通常可以识别头皮 EEG 未显示的癫痫放电。对两名已知有脑岛癫痫伴脑岛海绵状血管瘤的患者同时进行头皮 EEG 和 MEG 以检测和定位癫痫放电。在 EEG 和 MEG 发现中,将癫痫放电检测为异常尖峰。在患者 1 中,通过 EEG 和 MEG 同时检测到的所有 MEG 尖峰(E/M-尖峰)的源均位于前颞叶,类似于 TLE。相比之下,仅通过 MEG 检测到的所有 MEG 尖峰(M-尖峰)的源紧邻脑岛病变。在患者 2 中,通过 EEG 和 MEG 同时检测到的所有 MEG 尖峰(E/M-尖峰)的源均位于前颞叶。这些发现表明 MEG 使我们能够检测到头皮 EEG 无法检测到的脑岛活动。总之,同时进行 EEG 和 MEG 有助于检测尖峰,并获得有关脑岛癫痫患者癫痫起源和传播的更多信息。
