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The Relationship Between the Rhythmic Components of the Brain Electrical Activity During the Development of Status Epilepticus: An Operational Model of Brain Rhythms Generation
Brain Connectivity ( IF 2.4 ) Pub Date : 2022-08-04 , DOI: 10.1089/brain.2021.0108 Alexandr Bondar 1 , Liubov Shubina 2
Brain Connectivity ( IF 2.4 ) Pub Date : 2022-08-04 , DOI: 10.1089/brain.2021.0108 Alexandr Bondar 1 , Liubov Shubina 2
Affiliation
Introduction: Despite the fact that brain rhythms are widely studied and officially classified, there is no consensus on their relationship, which can shed light on the genesis of rhythmic activity, its synchronization, functional role, and the formation of pathological reactions. Using the experimental status epilepticus (SE) as a model of brain in a hypersynchronized state with well-defined rhythms, we aimed to study the relationship between the rhythmic components of the brain electrical activity.
中文翻译:
癫痫持续状态发展过程中脑电活动节律成分之间的关系:脑节律生成的操作模型
简介:尽管大脑节律被广泛研究和官方分类,但它们之间的关系尚未达成共识,这可以阐明节律活动的起源、同步性、功能作用和病理反应的形成。使用实验性癫痫持续状态 (SE) 作为具有明确节律的超同步状态的大脑模型,我们旨在研究大脑电活动的节律成分之间的关系。
更新日期:2022-08-05
中文翻译:
癫痫持续状态发展过程中脑电活动节律成分之间的关系:脑节律生成的操作模型
简介:尽管大脑节律被广泛研究和官方分类,但它们之间的关系尚未达成共识,这可以阐明节律活动的起源、同步性、功能作用和病理反应的形成。使用实验性癫痫持续状态 (SE) 作为具有明确节律的超同步状态的大脑模型,我们旨在研究大脑电活动的节律成分之间的关系。