Short-Term Response of Sleep-Potentiated Spiking to High-Dose Diazepam in Electric Status Epilepticus During Sleep

Abstract We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage...

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Published inPediatric neurology Vol. 46; no. 5; pp. 312 - 318
Main Authors Sánchez Fernández, Iván, MD, Hadjiloizou, Stavros, MD, Eksioglu, Yaman, MD, Peters, Jurriaan M., MD, Takeoka, Masanori, MD, Tas, Emir, MD, Abdelmoumen, Imane, MD, Rotenberg, Alexander, MD, PhD, Kothare, Sanjeev V., MD, Riviello, James J., MD, Loddenkemper, Tobias, MD
Format Journal Article
LanguageEnglish
Published New York, NY Elsevier Inc 01.05.2012
Elsevier
Subjects
Adolescent
Age
Anticonvulsants - therapeutic use
Biological and medical sciences
Brain Waves - drug effects
Child
Child, Preschool
Children
Diazepam
Diazepam - therapeutic use
Dose-Response Relationship, Drug
Electroencephalography
Epilepsy
Female
Firing pattern
Headache. Facial pains. Syncopes. Epilepsia. Intracranial hypertension. Brain oedema. Cerebral palsy
Humans
Male
Medical sciences
Nervous system (semeiology, syndromes)
Neurology
Pediatrics
Retrospective Studies
Side effects
Sleep (NREM)
Sleep - drug effects
Sleep - physiology
Sleep and wakefulness
Statistics, Nonparametric
Status Epilepticus - drug therapy
Status Epilepticus - physiopathology
Time Factors
Wakefulness - drug effects
Short term
Nervous system diseases
Sleep
Subintrant crisis
Epilepsy
Central nervous system disease
Sleep wake cycle
High dose
Status epilepticus
Diazepam
Cerebral disorder
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Abstract Abstract We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by ≥50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = −4.287, P < 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
AbstractList Abstract We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by ≥50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = −4.287, P < 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by greater than or equal to 50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = -4.287, P < 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by ≥50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = -4.287, P < 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by ≥50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = -4.287, P &lt; 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during sleep. We enrolled patients treated with high-dose oral bedtime diazepam from 2001-2009. We defined spike percentage as the percentage of 1-second bins containing at least one spike, and calculated it during three randomly selected 5-minute samples of wakefulness throughout the day and during the first 5 minutes of every hour of non-rapid eye movement sleep at night. In this study, patients were considered to demonstrate sleep-potentiated epileptiform activity when their spike percentage during sleep was increased by ≥50% compared with wakefulness. Twenty-nine children (18 boys) were included (median age, 7.4 years). Twenty-four hours after receiving high-dose diazepam, epileptiform activity was significantly reduced (76.7% at baseline vs 40.8% 24 hours after high-dose diazepam; Wilcoxon signed ranks test, Z = −4.287, P < 0.0001). Seven patients (24.1%) manifested mild, reversible side effects during the first 48 hours after diazepam administration. High-dose oral diazepam effectively and safely reduced epileptiform activity in patients with electric status epilepticus during sleep.
Author Sánchez Fernández, Iván, MD
Tas, Emir, MD
Takeoka, Masanori, MD
Loddenkemper, Tobias, MD
Eksioglu, Yaman, MD
Rotenberg, Alexander, MD, PhD
Peters, Jurriaan M., MD
Hadjiloizou, Stavros, MD
Riviello, James J., MD
Abdelmoumen, Imane, MD
Kothare, Sanjeev V., MD
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Issue 5
Keywords Short term
Nervous system diseases
Sleep
Subintrant crisis
Epilepsy
Central nervous system disease
Sleep wake cycle
High dose
Status epilepticus
Diazepam
Cerebral disorder
Language English
License CC BY 4.0
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Snippet Abstract We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus...
We describe the short-term effects of high-dose oral diazepam on sleep-potentiated epileptiform activity in patients with electric status epilepticus during...
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StartPage 312
SubjectTerms Adolescent
Age
Anticonvulsants - therapeutic use
Biological and medical sciences
Brain Waves - drug effects
Child
Child, Preschool
Children
Diazepam
Diazepam - therapeutic use
Dose-Response Relationship, Drug
Electroencephalography
Epilepsy
Female
Firing pattern
Headache. Facial pains. Syncopes. Epilepsia. Intracranial hypertension. Brain oedema. Cerebral palsy
Humans
Male
Medical sciences
Nervous system (semeiology, syndromes)
Neurology
Pediatrics
Retrospective Studies
Side effects
Sleep (NREM)
Sleep - drug effects
Sleep - physiology
Sleep and wakefulness
Statistics, Nonparametric
Status Epilepticus - drug therapy
Status Epilepticus - physiopathology
Time Factors
Wakefulness - drug effects
Title Short-Term Response of Sleep-Potentiated Spiking to High-Dose Diazepam in Electric Status Epilepticus During Sleep
URI https://www.clinicalkey.es/playcontent/1-s2.0-S0887899412000641
https://dx.doi.org/10.1016/j.pediatrneurol.2012.02.017
https://www.ncbi.nlm.nih.gov/pubmed/22520353
https://search.proquest.com/docview/1009131172
https://search.proquest.com/docview/1014110182
Volume 46
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