研究癫痫患者颅内刺激的网络机制。
Studying network mechanisms using intracranial stimulation in epileptic patients.
机构信息
INSERM U836, Grenoble Institut des Neurosciences Grenoble, France.
出版信息
Front Syst Neurosci. 2010 Oct 20;4:148. doi: 10.3389/fnsys.2010.00148. eCollection 2010.
Abstract
Patients suffering from focal drug-resistant epilepsy who are explored using intracranial electrodes allow to obtain data of exceptional value for studying brain dynamics in correlation with pathophysiological and cognitive processes. Direct electrical stimulation (DES) of cortical regions and axonal tracts in those patients elicits a number of very specific perceptual or behavioral responses, but also abnormal responses due to specific configurations of epileptic networks. Here, we review how anatomo-functional brain connectivity and epilepsy network mechanisms can be assessed from DES responses measured in patients. After a brief summary of mechanisms of action of brain electrical stimulation, we recall the conceptual framework for interpreting DES results in the context of brain connectivity and review how DES can be used for the characterization of functional networks, the identification of the seizure onset zone, the study of brain plasticity mechanisms, and the anticipation of epileptic seizures. This pool of exceptional data may be underexploited by fundamental research on brain connectivity and leaves much to be learned.
摘要
接受颅内电极探查的局灶性耐药性癫痫患者,可以获得与病理生理和认知过程相关的大脑动力学数据,这些数据极具研究价值。对这些患者的皮质区域和轴突束进行直接电刺激(DES),会引发多种非常特殊的感觉或行为反应,但也会因癫痫网络的特定结构而产生异常反应。在这里,我们回顾了如何从患者测量的 DES 反应中评估解剖功能连接和癫痫网络机制。在简要总结脑电刺激作用机制后,我们回顾了在脑连接的背景下解释 DES 结果的概念框架,并回顾了 DES 如何用于功能网络的特征描述、发作起始区的识别、脑可塑性机制的研究以及癫痫发作的预测。这些特殊数据可能没有得到大脑连接的基础研究的充分利用,还有很多需要了解。
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