Acute non-convulsive status epilepticus after experimental traumatic brain injury in rats

Severe traumatic brain injury (TBI) induces seizures or status epilepticus (SE) in 20%-30% of patients during the acute phase. We hypothesized that severe TBI induced with lateral fluid-percussion injury (FPI) triggers post-impact SE. Adult Sprague-Dawley male rats were anesthetized with isoflurane...

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Veröffentlicht in:	Journal of neurotrauma 2019-06, Vol.36 (11), p.1890-1907
Hauptverfasser:	Andrade, Pedro, Banuelos-Cabrera, Ivette, Lapinlampi, Niina, Paananen, Tomi, Ciszek, Robert, Ndode-Ekane, Xavier Ekolle, Pitkanen, Asla
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Sprache:	eng
Schlagworte:	EEG Electroencephalography Epilepsy Firing pattern Isoflurane Latency Original Rhythms Rodents Seizures Traumatic brain injury
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container_end_page	1907
container_issue	11
container_start_page	1890
container_title	Journal of neurotrauma
container_volume	36
creator	Andrade, Pedro Banuelos-Cabrera, Ivette Lapinlampi, Niina Paananen, Tomi Ciszek, Robert Ndode-Ekane, Xavier Ekolle Pitkanen, Asla
description	Severe traumatic brain injury (TBI) induces seizures or status epilepticus (SE) in 20%-30% of patients during the acute phase. We hypothesized that severe TBI induced with lateral fluid-percussion injury (FPI) triggers post-impact SE. Adult Sprague-Dawley male rats were anesthetized with isoflurane and randomized into sham-operated experimental control or lateral FPI-induced severe TBI groups. Electrodes were implanted right after impact or sham-operation, then video-electroencephalogram (EGG) monitoring was started. In addition, video-EEG was recorded from naïve rats. During the first 48 h post-TBI, injured rats had seizures which were intermingled with other epileptiform EEG patterns typical to non-convulsive SE, including occipital intermittent rhythmic delta activity, lateralized or generalized periodic discharges, spike-and-wave complexes, poly-spikes, poly-spike-and-wave complexes, generalized continuous spiking, burst suppression, or suppression. Almost all (98%) of the electrographic seizures were recorded during 0-72 h post-TBI (23.2 ± 17.4 seizures/rat). Mean latency from the impact to the first electrographic seizure was 18.4 ± 15.1 h. Mean seizure duration was 86 ± 57 s. Analysis of high-resolution videos indicated that only 41% of electrographic seizures associated with behavioral abnormalities were typically subtle (Racine scale 1-2). Fifty-nine % of electrographic seizures did not show any behavioral manifestations. In most of the rats, epileptiform EEG patterns began to decay spontaneously on days 5-6 after TBI. Interestingly, also a few sham-operated and naïve rats had post-operation seizures, which were not associated with EEG background patterns typical to non-convulsive SE seen in TBI rats. To summarize, our data shows that lateral FPI-induced TBI results in non-convulsive SE with subtle behavioral manifestations, this explains why it has remained undiagnosed until now. The lateral FPI model provides a novel platform for assessing the mechanisms of acute symptomatic non-convulsive SE, and for testing treatments to prevent post-injury SE in a clinically relevant context.
doi_str_mv	10.1089/neu.2018.6107
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We hypothesized that severe TBI induced with lateral fluid-percussion injury (FPI) triggers post-impact SE. Adult Sprague-Dawley male rats were anesthetized with isoflurane and randomized into sham-operated experimental control or lateral FPI-induced severe TBI groups. Electrodes were implanted right after impact or sham-operation, then video-electroencephalogram (EGG) monitoring was started. In addition, video-EEG was recorded from naïve rats. During the first 48 h post-TBI, injured rats had seizures which were intermingled with other epileptiform EEG patterns typical to non-convulsive SE, including occipital intermittent rhythmic delta activity, lateralized or generalized periodic discharges, spike-and-wave complexes, poly-spikes, poly-spike-and-wave complexes, generalized continuous spiking, burst suppression, or suppression. Almost all (98%) of the electrographic seizures were recorded during 0-72 h post-TBI (23.2 ± 17.4 seizures/rat). Mean latency from the impact to the first electrographic seizure was 18.4 ± 15.1 h. Mean seizure duration was 86 ± 57 s. Analysis of high-resolution videos indicated that only 41% of electrographic seizures associated with behavioral abnormalities were typically subtle (Racine scale 1-2). Fifty-nine % of electrographic seizures did not show any behavioral manifestations. In most of the rats, epileptiform EEG patterns began to decay spontaneously on days 5-6 after TBI. Interestingly, also a few sham-operated and naïve rats had post-operation seizures, which were not associated with EEG background patterns typical to non-convulsive SE seen in TBI rats. To summarize, our data shows that lateral FPI-induced TBI results in non-convulsive SE with subtle behavioral manifestations, this explains why it has remained undiagnosed until now. 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We hypothesized that severe TBI induced with lateral fluid-percussion injury (FPI) triggers post-impact SE. Adult Sprague-Dawley male rats were anesthetized with isoflurane and randomized into sham-operated experimental control or lateral FPI-induced severe TBI groups. Electrodes were implanted right after impact or sham-operation, then video-electroencephalogram (EGG) monitoring was started. In addition, video-EEG was recorded from naïve rats. During the first 48 h post-TBI, injured rats had seizures which were intermingled with other epileptiform EEG patterns typical to non-convulsive SE, including occipital intermittent rhythmic delta activity, lateralized or generalized periodic discharges, spike-and-wave complexes, poly-spikes, poly-spike-and-wave complexes, generalized continuous spiking, burst suppression, or suppression. Almost all (98%) of the electrographic seizures were recorded during 0-72 h post-TBI (23.2 ± 17.4 seizures/rat). Mean latency from the impact to the first electrographic seizure was 18.4 ± 15.1 h. Mean seizure duration was 86 ± 57 s. Analysis of high-resolution videos indicated that only 41% of electrographic seizures associated with behavioral abnormalities were typically subtle (Racine scale 1-2). Fifty-nine % of electrographic seizures did not show any behavioral manifestations. In most of the rats, epileptiform EEG patterns began to decay spontaneously on days 5-6 after TBI. Interestingly, also a few sham-operated and naïve rats had post-operation seizures, which were not associated with EEG background patterns typical to non-convulsive SE seen in TBI rats. To summarize, our data shows that lateral FPI-induced TBI results in non-convulsive SE with subtle behavioral manifestations, this explains why it has remained undiagnosed until now. The lateral FPI model provides a novel platform for assessing the mechanisms of acute symptomatic non-convulsive SE, and for testing treatments to prevent post-injury SE in a clinically relevant context.</abstract><cop>United States</cop><pub>Mary Ann Liebert, Inc</pub><pmid>30543155</pmid><doi>10.1089/neu.2018.6107</doi><tpages>18</tpages><oa>free_for_read</oa></addata></record>
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subjects	EEG Electroencephalography Epilepsy Firing pattern Isoflurane Latency Original Rhythms Rodents Seizures Traumatic brain injury
title	Acute non-convulsive status epilepticus after experimental traumatic brain injury in rats
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