Search results for "Status epilepticus"

showing 3 items of 23 documents

Toward evidence-based severity assessment in rat models with repeated seizures: II. Chemical post-status epilepticus model.

2019

Objective: Considering the complexity of neuronal circuits and their epilepsy-associated alterations, epilepsy models cannot be completely replaced by in vitro experimental approaches. Decisions about ethical approval of in vivo studies require a thorough weighing of the animal's burden and the benefit regarding the expected gain in knowledge. Methods: Based on combined behavioral, biochemical, and physiological analyses, we assessed the impact on animal well-being and condition in different phases of the pilocarpine post–status epilepticus (SE) model in rats. Results: As a consequence of SE, increased levels of impairment were evident in the early postinsult phase and late chronic phase, w…

behaviorAnimalrodentPilocarpine3RSeizureHippocampusSeverity of Illness IndexRatsStatus EpilepticuRats Sprague-DawleyDisease Models AnimalHippocampuStatus EpilepticusNeurologySeizuresstreEvidence-Based PracticeRatAnimalsNeurology (clinical)Stress PsychologicalEpilepsiaREFERENCES
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No evidence for efficacy of intrathecal verapamil in the treatment of tonic-clonic status epilepticus

1992

In two patients with refractory generalized tonic-clonic status epilepticus, 15 mg of the calcium antagonist verapamil was given by suboccipital intrathecal administration. During a 2–6-h observation period, seizure frequency did not decrease. However, in one patient, verapamil induced severe hypotension. Subsequent thiopental anesthesia suppressed convulsions immediately. Our results indicate that, in contradistinction to animal studies with different administration techniques, intrathecal administration of verapamil does not produce any anticonvulsant effect in humans.

business.industryGeneral Neurosciencemedicine.medical_treatmentAntagonistchemistry.chemical_elementStatus epilepticusPharmacologyCalciumIntrathecalTonic (physiology)AnticonvulsantchemistryAnesthesiamedicineVerapamilNeurology (clinical)Animal studiesmedicine.symptombusinessmedicine.drugJournal of Epilepsy
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Closed-Loop Acoustic Stimulation During Sleep in Children With Epilepsy: A Hypothesis-Driven Novel Approach to Interact With Spike-Wave Activity and …

2019

Slow waves, the electroencephalographic (EEG) hallmark of deep sleep, can be systematically manipulated by acoustic stimulation: stimulation time-locked to the down phase of slow waves reduces, whereas stimulation time-locked to the up phase increases slow waves. Spike-waves during sleep seem to be related to slow waves, raising the question of whether spike-waves can be systematically influenced by such acoustic stimulation. In five pediatric patients, all-night EEG was recorded, combined with real-time slow wave detection. Throughout the night, acoustic stimulation was performed in a 3 × 5-min-block design (no stimulation—stimulation—no stimulation). Tones were applied time-locked either …

high-density EEGelectrical status epilepticus during slow wave sleepinterictal activitydevelopmentlcsh:Neurosciences. Biological psychiatry. Neuropsychiatryneurostimulationlcsh:RC321-571Frontiers in Human Neuroscience
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