Vaugier L, Aubert S, McGonigal A, Trébuchon A, Guye M, Gavaret M, Regis J, Chauvel P, Wendling F, Bartolomei F
CHU Timone, Service de Neurophysiologie Clinique, Assistance Publique des Hôpitaux de Marseille, Marseille, F-13005, France.
Epilepsy Res. 2009 Oct;86(2-3):200-8. doi: 10.1016/j.eplepsyres.2009.06.007. Epub 2009 Jul 19.
Hyperkinetic seizures are most often considered to originate from prefrontal cortex. Recently however, it has been suggested that hyperkinetic seizures can be found in patients with temporal lobe seizures. The objective of this study was to determine the features of temporal epilepsy with hyperkinetic seizures and the functional anatomy of involved brain networks.
We retrospectively identified patients investigated by depth electrodes (SEEG) in whom hyperkinetic manifestations were proved to be linked to initial temporal lobe involvement. Seizure organisation was determined according to the "Epileptogenicity Index" (EI), a new way to quantify rapid discharges at seizure onset.
We found 7 patients among 130 SEEG investigations that fulfilled the inclusion criteria. Most of the patients presented with hyperkinetic occurring (or predominating) during sleep. SEEG signal analysis demonstrated a common temporo-frontal network in which the temporal pole played a central role. Major involvement of the orbito-frontal cortex and to a lesser extent the cingulate gyrus was also a particular feature of these seizures.
Seizures originating in the temporal lobe must be recognized as an important cause of hyperkinetic seizures. The temporal pole and its connexions with medio-basal prefrontal cortex represent the main structures involved in epileptogenic networks.
多动性癫痫最常被认为起源于前额叶皮质。然而最近,有研究表明颞叶癫痫患者也可出现多动性癫痫发作。本研究的目的是确定伴有多动性癫痫发作的颞叶癫痫的特征以及受累脑网络的功能解剖结构。
我们回顾性地确定了接受深度电极(立体定向脑电图,SEEG)检查的患者,这些患者的多动性表现被证实与最初的颞叶受累有关。根据“致痫性指数”(EI)确定癫痫发作结构,EI是一种量化癫痫发作起始时快速放电的新方法。
在130例SEEG检查中,我们发现7例患者符合纳入标准。大多数患者的多动性发作(或为主)发生在睡眠期间。SEEG信号分析显示了一个常见的颞-额网络,其中颞极起核心作用。眶额皮质的主要受累以及扣带回较小程度的受累也是这些癫痫发作的一个特殊特征。
起源于颞叶的癫痫发作必须被视为多动性癫痫发作的一个重要原因。颞极及其与中基底前额叶皮质的连接代表了致痫网络中涉及的主要结构。
