Altered peri-seizure EEG microstate dynamics in patients with absence epilepsy

•The inter-ictal EEG of AE patients differ from the resting-state EEG of healthy controls in microstates.•There exist altered EEG microstates dynamics from inter-ictal, pre-seizure to post-seizure states.•The EEG microstates of epileptic patients before and after absence seizure are characterized by...

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Published in	Seizure (London, England) Vol. 88; pp. 15 - 21
Main Authors	Liu, Hong, Tang, Haoling, Wei, Wei, Wang, Gesheng, Du, Yong, Ruan, Jianghai
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.05.2021
Subjects	absence epilepsy EEG microstates electroencephalography seizures absence epilepsy electroencephalography AE DMN EEG EEG microstates seizures HC eLORETA BA
Online Access	Get full text
ISSN	1059-1311 1532-2688 1532-2688
DOI	10.1016/j.seizure.2021.03.020

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Abstract	•The inter-ictal EEG of AE patients differ from the resting-state EEG of healthy controls in microstates.•There exist altered EEG microstates dynamics from inter-ictal, pre-seizure to post-seizure states.•The EEG microstates of epileptic patients before and after absence seizure are characterized by a ‘slow down’ in transitions between microstates.•EEG microstates deepens our understanding on seizures, beyond the traditional EEG visual inspection. To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode. AE patients with a current high frequency of seizures were included (n=21). Each included subject underwent a two-hour and 19-channel video EEG examination. Five epochs of 10-second EEG data in interictal, pre-seizure, and post-seizure states were collected from each AE patient. Five 10-second resting-state EEG epochs from sex- and age-matched HCs who reported no history of neurological or psychiatric disorders and visited the hospital for routine physical examinations were collected. Microstate analysis and source localization of microstates were performed using the LORETA KEY tool. Compared with the resting-state EEGs of HCs, the interictal EEGs of AE patients showed a higher relative transition rate from microstates B to D (p<0.05). From interictal to pre-seizure EEG, the total time ratio of microstate C and the occurrence of microstate B decreased significantly, while the duration of microstate B increased significantly (p<0.05). Compared with pre-seizure EEGs, microstate C in post-seizure EEGs showed a significantly downregulated total time percentage and occurrence (p<0.05). The source localization of each microstate in each condition also varied and showed spatial recovery tends from pre- to post-seizure states. Altered EEG microstate dynamics exist between inter-ictal EEGs of AE patients and resting-state EEGs of HCs and between pre- and post-seizure EEGs in AE patients. The EEG microstates of epileptic patients before and after absence seizures are characterized by a “slowdown” in transitions between microstates. Microstates might be used as an index to evaluate the temporal and spatial recovery process of absence seizures in AE.
AbstractList	To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode. AE patients with a current high frequency of seizures were included (n=21). Each included subject underwent a two-hour and 19-channel video EEG examination. Five epochs of 10-second EEG data in interictal, pre-seizure, and post-seizure states were collected from each AE patient. Five 10-second resting-state EEG epochs from sex- and age-matched HCs who reported no history of neurological or psychiatric disorders and visited the hospital for routine physical examinations were collected. Microstate analysis and source localization of microstates were performed using the LORETA KEY tool. Compared with the resting-state EEGs of HCs, the interictal EEGs of AE patients showed a higher relative transition rate from microstates B to D (p<0.05). From interictal to pre-seizure EEG, the total time ratio of microstate C and the occurrence of microstate B decreased significantly, while the duration of microstate B increased significantly (p<0.05). Compared with pre-seizure EEGs, microstate C in post-seizure EEGs showed a significantly downregulated total time percentage and occurrence (p<0.05). The source localization of each microstate in each condition also varied and showed spatial recovery tends from pre- to post-seizure states. Altered EEG microstate dynamics exist between inter-ictal EEGs of AE patients and resting-state EEGs of HCs and between pre- and post-seizure EEGs in AE patients. The EEG microstates of epileptic patients before and after absence seizures are characterized by a "slowdown" in transitions between microstates. Microstates might be used as an index to evaluate the temporal and spatial recovery process of absence seizures in AE. To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode.OBJECTIVETo investigate whether the parameters of EEG microstates changed before and after an absence seizure episode.AE patients with a current high frequency of seizures were included (n=21). Each included subject underwent a two-hour and 19-channel video EEG examination. Five epochs of 10-second EEG data in interictal, pre-seizure, and post-seizure states were collected from each AE patient. Five 10-second resting-state EEG epochs from sex- and age-matched HCs who reported no history of neurological or psychiatric disorders and visited the hospital for routine physical examinations were collected. Microstate analysis and source localization of microstates were performed using the LORETA KEY tool.METHODSAE patients with a current high frequency of seizures were included (n=21). Each included subject underwent a two-hour and 19-channel video EEG examination. Five epochs of 10-second EEG data in interictal, pre-seizure, and post-seizure states were collected from each AE patient. Five 10-second resting-state EEG epochs from sex- and age-matched HCs who reported no history of neurological or psychiatric disorders and visited the hospital for routine physical examinations were collected. Microstate analysis and source localization of microstates were performed using the LORETA KEY tool.Compared with the resting-state EEGs of HCs, the interictal EEGs of AE patients showed a higher relative transition rate from microstates B to D (p<0.05). From interictal to pre-seizure EEG, the total time ratio of microstate C and the occurrence of microstate B decreased significantly, while the duration of microstate B increased significantly (p<0.05). Compared with pre-seizure EEGs, microstate C in post-seizure EEGs showed a significantly downregulated total time percentage and occurrence (p<0.05). The source localization of each microstate in each condition also varied and showed spatial recovery tends from pre- to post-seizure states.RESULTSCompared with the resting-state EEGs of HCs, the interictal EEGs of AE patients showed a higher relative transition rate from microstates B to D (p<0.05). From interictal to pre-seizure EEG, the total time ratio of microstate C and the occurrence of microstate B decreased significantly, while the duration of microstate B increased significantly (p<0.05). Compared with pre-seizure EEGs, microstate C in post-seizure EEGs showed a significantly downregulated total time percentage and occurrence (p<0.05). The source localization of each microstate in each condition also varied and showed spatial recovery tends from pre- to post-seizure states.Altered EEG microstate dynamics exist between inter-ictal EEGs of AE patients and resting-state EEGs of HCs and between pre- and post-seizure EEGs in AE patients. The EEG microstates of epileptic patients before and after absence seizures are characterized by a "slowdown" in transitions between microstates. Microstates might be used as an index to evaluate the temporal and spatial recovery process of absence seizures in AE.CONCLUSIONAltered EEG microstate dynamics exist between inter-ictal EEGs of AE patients and resting-state EEGs of HCs and between pre- and post-seizure EEGs in AE patients. The EEG microstates of epileptic patients before and after absence seizures are characterized by a "slowdown" in transitions between microstates. Microstates might be used as an index to evaluate the temporal and spatial recovery process of absence seizures in AE. •The inter-ictal EEG of AE patients differ from the resting-state EEG of healthy controls in microstates.•There exist altered EEG microstates dynamics from inter-ictal, pre-seizure to post-seizure states.•The EEG microstates of epileptic patients before and after absence seizure are characterized by a ‘slow down’ in transitions between microstates.•EEG microstates deepens our understanding on seizures, beyond the traditional EEG visual inspection. To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode. AE patients with a current high frequency of seizures were included (n=21). Each included subject underwent a two-hour and 19-channel video EEG examination. Five epochs of 10-second EEG data in interictal, pre-seizure, and post-seizure states were collected from each AE patient. Five 10-second resting-state EEG epochs from sex- and age-matched HCs who reported no history of neurological or psychiatric disorders and visited the hospital for routine physical examinations were collected. Microstate analysis and source localization of microstates were performed using the LORETA KEY tool. Compared with the resting-state EEGs of HCs, the interictal EEGs of AE patients showed a higher relative transition rate from microstates B to D (p<0.05). From interictal to pre-seizure EEG, the total time ratio of microstate C and the occurrence of microstate B decreased significantly, while the duration of microstate B increased significantly (p<0.05). Compared with pre-seizure EEGs, microstate C in post-seizure EEGs showed a significantly downregulated total time percentage and occurrence (p<0.05). The source localization of each microstate in each condition also varied and showed spatial recovery tends from pre- to post-seizure states. Altered EEG microstate dynamics exist between inter-ictal EEGs of AE patients and resting-state EEGs of HCs and between pre- and post-seizure EEGs in AE patients. The EEG microstates of epileptic patients before and after absence seizures are characterized by a “slowdown” in transitions between microstates. Microstates might be used as an index to evaluate the temporal and spatial recovery process of absence seizures in AE.
Author	Wei, Wei Ruan, Jianghai Liu, Hong Wang, Gesheng Tang, Haoling Du, Yong
Author_xml	– sequence: 1 givenname: Hong surname: Liu fullname: Liu, Hong organization: Department of Neurology, The Affiliated Hospital of Southwest Medical University, Luzhou, 646000, China – sequence: 2 givenname: Haoling surname: Tang fullname: Tang, Haoling organization: Department of Neurology, The Affiliated Hospital of Southwest Medical University, Luzhou, 646000, China – sequence: 3 givenname: Wei surname: Wei fullname: Wei, Wei organization: Department of Neurology, The Affiliated Hospital of Southwest Medical University, Luzhou, 646000, China – sequence: 4 givenname: Gesheng surname: Wang fullname: Wang, Gesheng organization: Department of Neurosurgery, Dongfang Hospital, Beijing University of Chinese Medicine, Beijing, 100071, China – sequence: 5 givenname: Yong surname: Du fullname: Du, Yong email: dy2zsm@sina.com organization: Department of Neurosurgery, Dongfang Hospital, Beijing University of Chinese Medicine, Beijing, 100071, China – sequence: 6 givenname: Jianghai surname: Ruan fullname: Ruan, Jianghai email: jianghai.ruan@swmu.edu.cn organization: Department of Neurology, The Affiliated Hospital of Southwest Medical University, Luzhou, 646000, China
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Keywords	absence epilepsy electroencephalography AE DMN EEG EEG microstates seizures HC eLORETA BA
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Snippet	•The inter-ictal EEG of AE patients differ from the resting-state EEG of healthy controls in microstates.•There exist altered EEG microstates dynamics from... To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode. AE patients with a current high frequency of... To investigate whether the parameters of EEG microstates changed before and after an absence seizure episode.OBJECTIVETo investigate whether the parameters of...
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SubjectTerms	absence epilepsy EEG microstates electroencephalography seizures
Title	Altered peri-seizure EEG microstate dynamics in patients with absence epilepsy
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