Matsubara Teppei, Ahlfors Seppo P, Mima Tatsuya, Hagiwara Koichi, Shigeto Hiroshi, Tobimatsu Shozo, Goto Yoshinobu, Stufflebeam Steven
Department of Radiology, Athinoula A. Martinos Center for Biomedical Imaging, Massachusetts General Hospital, Boston, MA, United States.
Harvard Medical School, Boston, MA, United States.
Front Neurol. 2021 Oct 26;12:759866. doi: 10.3389/fneur.2021.759866. eCollection 2021.
Patients with cortical reflex myoclonus manifest typical neurophysiologic characteristics due to primary sensorimotor cortex (S1/M1) hyperexcitability, namely, contralateral giant somatosensory-evoked potentials/fields and a C-reflex (CR) in the stimulated arm. Some patients show a CR in both arms in response to unilateral stimulation, with about 10-ms delay in the non-stimulated compared with the stimulated arm. This bilateral C-reflex (BCR) may reflect strong involvement of bilateral S1/M1. However, the significance and exact pathophysiology of BCR within 50 ms are yet to be established because it is difficult to identify a true ipsilateral response in the presence of the giant component in the contralateral hemisphere. We hypothesized that in patients with BCR, bilateral S1/M1 activity will be detected using MEG source localization and interhemispheric connectivity will be stronger than in healthy controls (HCs) between S1/M1 cortices. We recruited five patients with cortical reflex myoclonus with BCR and 15 HCs. All patients had benign adult familial myoclonus epilepsy. The median nerve was electrically stimulated unilaterally. Ipsilateral activity was investigated in functional regions of interest that were determined by the N20m response to contralateral stimulation. Functional connectivity was investigated using weighted phase-lag index (wPLI) in the time-frequency window of 30-50 ms and 30-100 Hz. Among seven of the 10 arms of the patients who showed BCR, the average onset-to-onset delay between the stimulated and the non-stimulated arm was 8.4 ms. Ipsilateral S1/M1 activity was prominent in patients. The average time difference between bilateral cortical activities was 9.4 ms. The average wPLI was significantly higher in the patients compared with HCs in specific cortico-cortical connections. These connections included precentral-precentral, postcentral-precentral, inferior parietal (IP)-precentral, and IP-postcentral cortices interhemispherically (contralateral region-ipsilateral region), and precentral-IP and postcentral-IP intrahemispherically (contralateral region-contralateral region). The ipsilateral response in patients with BCR may be a pathologically enhanced motor response homologous to the giant component, which was too weak to be reliably detected in HCs. Bilateral representation of sensorimotor responses is associated with disinhibition of the transcallosal inhibitory pathway within homologous motor cortices, which is mediated by the IP. IP may play a role in suppressing the inappropriate movements seen in cortical myoclonus.
皮质反射性肌阵挛患者由于初级感觉运动皮层(S1/M1)兴奋性过高而表现出典型的神经生理特征,即对侧巨大体感诱发电位/场以及受刺激手臂中的C反射(CR)。一些患者在单侧刺激时双臂均出现CR,与受刺激手臂相比,未受刺激手臂的延迟约为10毫秒。这种双侧C反射(BCR)可能反映了双侧S1/M1的强烈受累。然而,50毫秒内BCR的意义和确切病理生理学尚未明确,因为在对侧半球存在巨大成分的情况下,很难识别真正的同侧反应。我们假设,在有BCR的患者中,使用MEG源定位将检测到双侧S1/M1活动,并且S1/M1皮层之间的半球间连接性将比健康对照(HC)更强。我们招募了5例有BCR的皮质反射性肌阵挛患者和15名HC。所有患者均患有良性成人家族性肌阵挛性癫痫。单侧电刺激正中神经。在由对侧刺激的N20m反应确定的感兴趣功能区域中研究同侧活动。在30 - 50毫秒和30 - 100赫兹的时频窗口中使用加权相位滞后指数(wPLI)研究功能连接性。在显示BCR的患者的10条手臂中的7条中,受刺激手臂与未受刺激手臂之间的平均起始延迟为8.4毫秒。同侧S1/M1活动在患者中很突出。双侧皮质活动之间的平均时间差为9.4毫秒。在特定的皮质 - 皮质连接中,患者的平均wPLI显著高于HC。这些连接包括半球间的中央前回 - 中央前回、中央后回 - 中央前回、顶下小叶(IP) - 中央前回和IP - 中央后回皮质(对侧区域 - 同侧区域),以及半球内的中央前回 - IP和中央后回 - IP皮质(对侧区域 - 对侧区域)。有BCR的患者的同侧反应可能是与巨大成分同源的病理性增强运动反应,而在HC中该成分太弱而无法可靠检测到。感觉运动反应的双侧表现与同源运动皮层内胼胝体抑制通路的去抑制有关,这是由IP介导的。IP可能在抑制皮质肌阵挛中出现的不适当运动中起作用。
