AUTHOR=Zhong Lisha , Wan Jiangzhong , Wu Jia , He Suling , Zhong Xuefei , Huang Zhiwei , Li Zhangyong TITLE=Temporal and spatial dynamic propagation of electroencephalogram by combining power spectral and synchronization in childhood absence epilepsy JOURNAL=Frontiers in Neuroinformatics VOLUME=Volume 16 - 2022 YEAR=2022 URL=https://www.frontiersin.org/journals/neuroinformatics/articles/10.3389/fninf.2022.962466 DOI=10.3389/fninf.2022.962466 ISSN=1662-5196 ABSTRACT=Objective: During the transition from normal to seizure and then to termination, EEG signals have complex changes in time-frequency-space characteristics. This paper quantitively analyzes EEG characteristics and explores their dynamic propagation, which is helpful to provide new biomarkers for distinguishing pre-ictal and inter-ictal states ano better understand the seizure mechanisms. Methods: Thirty-three children with absence epilepsy were investigated with EEG signals. Power spectral and synchronization were combined to provide the time-frequency-space characteristics of EEG and analyze the spatial distribution and propagation of EEG in the brain with topographic maps. To understand the mechanism of spatial-temporal evolution, we compared inter-ictal, pre-ictal and ictal states in EEG power spectral and synchronization network and its rhythms in each frequency band. Results: Power, frequency and spatial synchronization are all enhanced during the absence seizures to jointly dominate the epilepsy process. We confirmed that a rapid diffusion at the onset accompanied by the frontal region predominance exists. The EEG power rapidly bursts in 2-4 Hz through the whole brain within a few seconds after the onset. This spatiotemporal evolution is associated with spatial diffusion and brain regions interaction, with a similar pattern, increasing first and then decreasing, in both the diffusion of the EEG power and the connectivity of the brain network during the CAE seizures. Compared with the inter-ictal group, we observed increases in power of delta and theta rhythms in the pre-ictal group (p<0.05). Meanwhile, the synchronization of delta rhythm decreased while that of alpha rhythm enhanced. Conclusions: The initiation and propagation of CAE seizures are related to the abnormal discharge diffusion and the synchronization network. During the seizures, brain activity is completely changed with the main component delta rhythm. Furthermore, this paper demonstrated for the first time that alpha inhibition, which is consistent with the brain's feedback regulation mechanism, is caused by the enhancement of the network connection. Temporal and spatial evolution of EEG is of great significance for the transmission mechanism, clinical diagnosis and automatic detection of absence epilepsy seizures.