Pediatrics andNeurology, The Children'sHospital, University of Colorado, USA.
Epilepsy Curr. 2006 Nov-Dec;6(6):199-202. doi: 10.1111/j.1535-7511.2006.00145.x.
Interictal spikes are widely accepted diagnostically as a sign of epilepsy, but reasons for the presence of interictal activity in the epileptic brain are unknown. Interictal spikes are easily generated in normal brain by pharmacologically reducing inhibition, and experimental studies of acquired epilepsy indicate that spikes precede seizures. These data lead to the hypothesis that interictal spikes are correlated with epilepsy because they play a fundamental role in epileptogenesis following brain injury. Spikes may guide sprouting axons back to their network of origin, increase and sustain the strength of the synapses formed by sprouted axons, and alter the balance of ion channels in the epileptic focus, such that seizures become possible. This hypothesis has implications that are testable: altering spiking or the calcium signals generated by spikes should alter epileptogenesis and spikes should precede seizures in brain-injured human patients.
发作间期棘波被广泛接受为癫痫的诊断标志,但癫痫大脑中发作间期活动存在的原因尚不清楚。通过药理学方法降低抑制作用,很容易在正常大脑中产生发作间期棘波,并且获得性癫痫的实验研究表明,棘波先于癫痫发作。这些数据导致了这样一种假设,即发作间期棘波与癫痫有关,因为它们在脑损伤后的癫痫发生中起着根本性的作用。棘波可能引导轴突突回到它们的起源网络,增加和维持由突轴突形成的突触的强度,并改变癫痫灶中离子通道的平衡,从而使癫痫发作成为可能。这一假设具有可检验的意义:改变棘波或由棘波产生的钙信号应该改变癫痫发生,并且棘波应该先于脑损伤的人类患者的癫痫发作。