Prolonged Seizures Research Articles

Evaluation of optic nerve sheath diameter measurements in postictal pediatric patients.

Prolonged seizures cause cytotoxic edema and increase intracranial pressure. Optic nerve sheath diameter (ONSD) and its ratio to eyeball transverse diameter (ONSD/ETD) offer a noninvasive method for monitoring intracranial pressure changes. We calculated the ONSD and ONSD/ETD ratio of postictal children using computed tomography and evaluated the relationship between those values and seizure duration. The ONSD and ONSD/ETD ratios were calculated using non-contrast computed head tomography for 88 postictal children with generalized and focal seizures and 109 healthy controls. ONSD was measured as the thickness at 3mm from the optic disc and the ETD was measured as the widest diameter of the eyeball from retina to retina. The ONSD/ETD ratio was obtained by averaging the left and right ONSD values and dividing that value by the mean of the left and right ETD values. Fifty-eight (63.6%) of the children had focal seizures, and 64% of the seizures of 59 children (67%) were classified as prolonged seizures. The median ONSD and ONSD/ETD ratio were significantly higher in postictal children compared to healthy controls (p < 0.001 and p < 0.001, respectively). In postictal children presenting with generalized seizures, nonsignificant differences in the median ONSD and ONSD/ETD ratio were observed (p = 0.43 and p < 0.87, respectively). Children with prolonged seizures had significantly different ONSD values (p = 0.015) but the ONSD/ETD ratio did not differ significantly (p = 0.87). The analysis of postictal children indicated a significant correlation between seizure duration and ONSD (r = 0.257, p = 0.016), but not the ONSD/ETD ratio (r = 0.065, p = 0.545). ONSD values of (> 4.84mm) were most effective in distinguishing patients with prolonged seizures compared to those without, with sensitivity and specificity of 65.6% and 72.5%. ONSD and ONSD/ETD values are potentially useful in the evaluation of postictal children, but they do not exhibit adequate discriminative accuracy by themselves. The significance of these parameters in observing seizure duration in postictal children may be a critical area of interest for future investigations.

Defining neonatal status epilepticus: A scoping review from the ILAE neonatal task force.

To review the available literature concerning the definition of neonatal status epilepticus (SE) and/or seizure burden. The International League Against Epilepsy Neonatal Task Force performed a scoping review of the definitions of neonatal SE. Following a systematic literature review, articles were screened and data were abstracted regarding: (1) article characteristics (author identification, publication year, journal name, digital object identifier, title, objective, and study design); (2) cohort characteristics (sample size, gestational age, seizure etiology); (3) definition of SE and/or seizure burden; and (4) the method used to identify and classify SE, including routine EEG (EEG), continuous EEG monitoring (cEEG), amplitude-integrated EEG (aEEG), or clinical features. The scoping review yielded 44 articles containing a definition of neonatal SE. Studies mainly included infants with hypoxic-ischemic encephalopathy or neonates considered at risk for seizures. SE identification and classification most often relied on cEEG. The majority of studies based the definition of SE on seizure duration, including summed duration of seizures comprising ≥50% of any 1-h epoch, recurrent seizures for >50% of the total recording time, or either electrographic seizures lasting >30 min and/or repeated electrographic seizures totaling >50% in any 1-h period. Seizure burden was reported in 20 studies, and the most commonly used approach assessed total seizure burden, defined as total duration of EEG seizures in minutes. Sixteen studies assessed the relationship between seizure burden and outcomes, and most identified a significant association between higher seizure burden and unfavorable outcomes. This scoping review demonstrates a substantial variation in neonatal SE definitions across the literature. The most common definitions were based around a 30-min seizure duration criterion, but evidence was insufficient to support that 30 min was a cutoff defining prolonged seizures or that seizures exceeding this burden were more likely to be pharmacoresistant or associated with worse outcomes. As a next step, the Neonatal Task Force intends to develop a standardized approach to assessing and describing neonatal seizure burden and defining neonatal SE. Prolonged seizures are a neurologic emergency, if untreated, can lead to permanent injury or death. In adults and children, seizures lasting longer than 30 min are believed to cause brain damage. However, it is not clear if this definition can be applied to neonates. The International League Against Epilepsy Neonatal Taskforce performed a scoping literature review which identified 44 articles containing a definition of neonatal status epilepticus. In this article, the authors reviewed the current used definitions for prolonged seizures in neonates to establish a relationship between seizure duration and neurological outcome. As a next step, the Neonatal Task Force intends to develop a standardized approach to assessing and describing neonatal seizure burden and defining neonatal SE.

Clinical Effectiveness and Safety of Midazolam Compared With Lorazepam for Control of Seizures in Adults

What Is the Issue? The emergency treatment of prolonged seizures or status epilepticus is required to be rapid and efficient to prevent permanent brain damage or death. Benzodiazepines, such as midazolam, lorazepam, diazepam, and clonazepam, are established as first-line treatment medications for acute treatments of seizures. Various administration routes of delivery for these drugs have become available, but the comparative clinical effectiveness and safety among administration routes are still unclear. Decision-makers are interested in whether the current use of intramuscular (IM) midazolam for treatment of seizures by paramedics in a prehospital environment can be switched to IV lorazepam as normally used by nurses and physicians in clinic settings. What Did We Do? We identified and summarized the literature on the evidence of the clinical effectiveness and safety of midazolam compared to lorazepam in adults to control seizures. We searched key resources, including journal citation databases, and conducted a focused internet search for relevant evidence published since 2019. One reviewer screened citations for inclusion based on predefined criteria, critically appraised the included studies, and narratively summarized the findings. What Did We Find? We identified 1 systematic review (SR) that included 4 randomized controlled trials (RCTs), only 1 was relevant to this review. This double-blind RCT determined the efficacy of IM midazolam as noninferior to IV lorazepam for treatment of seizures by paramedics in a mixed population of adults (89%) and children (11%). The authors of the SR conducted a subanalysis of a dataset of participant-level data and showed that IM midazolam was as effective and safe as IV lorazepam in adult patients for prehospital seizure cessation. The findings of the adult population were similar to those of the whole randomized population of both adults and children. What Does This Mean? With the shorter time required to administration of midazolam by the IM route compared to administration of lorazepam by the IV route, and the comparable efficacy and safety between the 2 active treatments, the use of IM midazolam may be a better option in the prehospital environment when IV access in patients with seizures is not readily established. Switching of IM midazolam to IV lorazepam for treatment of seizures by paramedics may not be practical.

New-Onset Refractory Status Epilepticus With Diffuse Cerebral Restricted Diffusion in Young Children: A Novel Clinical-Radiologic Presentation

BackgroundNew-onset refractory status epilepticus (NORSE) is a clinical presentation characterized by explosive-onset refractory status epilepticus (RSE) without evident etiology or active epilepsy, often leading to devastating epilepsy. There is heterogeneity in neuroradiographic findings for NORSE. We encountered a series of young patients with NORSE who had diffuse cerebral restriction in diffusion (DCRD) with similar radiographic appearances as acute encephalopathy with biphasic seizures and late restricted diffusion/acute leukoencephalopathy with restricted diffusion (AESD/ALERD). We explore clinical similarities and proposed pathophysiologic overlaps to highlight a novel clinical-radiologic presentation. MethodsRetrospective review was completed for patients younger than five years meeting NORSE criteria and then screened for radiographic evidence of DCRD. Demographic, clinical, and outcome data were collected. ResultsEleven patients met NORSE criteria, of whom seven displayed DCRD. Immunosuppressant management varied. All patients required multiple antiseizure medications and continuous infusions for RSE. Only one had an etiology identified (genetic). All but one patient developed diffuse, global, and progressive cerebral atrophy. Two patients died: one after prolonged seizure three years post-NORSE and another of unknown causes two months post-NORSE. Of five survivors, three have medically refractory epilepsy. Most survivors have severe disability. ConclusionsWe present a single-center case series of seven patients with NORSE and DCRD, akin to AESD/ALERD. Our patients differed clinically to AESD/ALERD in terms of seizure severity and poorer outcome. There is a need to develop biomarkers for specific NORSE phenotypes. The young child with NORSE and DCRD may represent a novel phenotype with a specific neuroradiographic signature that deserves further attention.

Identification of Reliable Reference Genes for Use in Gene Expression Studies in Rat Febrile Seizure Model.

The study of the pathogenesis of febrile seizures and their consequences frequently necessitates gene expression analysis. The primary methodology employed for such analysis is reverse transcription with quantitative polymerase chain reaction (RT-qPCR). To ensure the accuracy of data obtained by RT-qPCR, it is crucial to utilize stably expressed reference genes. The objective of this study was to identify the most suitable reference genes for use in the analysis of mRNA production in various brain regions of rats following prolonged neonatal febrile seizures. The expression stability of eight housekeeping genes was evaluated using the online tool RefFinder in the dorsal and ventral hippocampal regions and in the temporal and medial prefrontal cortex of the brain. The Ppia gene exhibited the greatest stability of expression. Conversely, the genes with the least stable expression levels were Actb and Ywhaz; thus, it is not recommended to use them for normalization in a febrile seizure model. Additionally, the majority of housekeeping genes demonstrate age-related, region-specific fluctuations. Therefore, it is crucial to employ the appropriate housekeeping genes for each brain structure under investigation when examining the expression dynamics of genes of interest in a febrile seizure model.

Italian report on RARE epilepsies (i-RARE): A consensus on multidisciplinarity.

Rare and complex epilepsies encompass a diverse range of disorders characterized by seizures. We aimed to establish a consensus on key issues related to these conditions through collaboration among experienced neurologists, neuropediatricians, and patient advocacy representatives. Employing a modified Delphi method, a scientific board comprising 20 physicians and 4 patient advocacy representatives synthesized existing literature with their expertise to formulate statements on contentious topics. A final 32-member expert panel, representing diverse regions of Italy, validated these statements through a two-round voting process, with consensus defined as an average score ≥7. Sixteen statements reached a consensus, emphasizing the necessity for epidemiological studies to ascertain the true prevalence of rare epilepsies. Etiology emerged as a crucial factor influencing therapeutic strategies and outcome prediction, with particular concern regarding prolonged and tonic-clonic seizures. The importance of early implementation of specific drugs and non-pharmacological interventions in the treatment algorithm for developmental and epileptic encephalopathies (DEEs) was underscored. Multidisciplinary care involving experts with diverse skills was deemed essential, emphasizing non-seizure outcomes in adolescence and adulthood. This national consensus underscores the imperative for personalized, comprehensive, and multidisciplinary management of rare epilepsies/DEEs. It advocates for increased research, particularly in epidemiology and therapeutic approaches, to inform clinical decision-making and healthcare policies, ultimately enhancing patients' outcomes. The modified Delphi method is broadly used to evaluate debated topics. In this work, we sought the consensus on integrated and social care in epilepsy management. Both representatives of high-level epilepsy centers and patients' caregivers were directly involved.

Efficacy of a mitochondrial drug cocktail in preventing acute encephalopathy with biphasic seizures and late reduced diffusion

Acute encephalopathy with biphasic seizures and late reduced diffusion (AESD) is difficult to differentiate from prolonged febrile seizures during the acute phase. Mitochondrial dysfunction-induced energy depletion is among the key mechanisms underlying acute encephalopathy. Therefore, this study aimed to examine the efficacy of a “mitochondrial cocktail” in preventing AESD. We retrospectively studied children experiencing status epilepticus associated with fever lasting more than 30 min, focusing on those who received the mitochondrial cocktail between February 2016 and December 2020, and those who did not receive it within 24 h between February 2012 and January 2014. The mitochondrial cocktail contained vitamins B1, C, and E; biotin; coenzyme Q10; and l-carnitine. AESD occurred in 1 of 41 (2.4 %) patients in the administration group and 7 of 39 (17.9 %) patients in the non-administration group. The incidence of AESD was lower in the administration group than in the non-administration group, with a significant difference (p = 0.027). The incidence of encephalopathy, including cases classified as AESD and unclassified, was 7/41 (17.1 %) and 7/39 (17.9 %) in the administration and non-administration groups, respectively, with no significant difference. However, the number of cases with worsening pediatric cerebral performance category scores was significantly lower in the administration group compared to the non-administration group (p = 0.015). In conclusion, early administration of the mitochondrial cocktail may help prevent AESD. Some encephalopathy cases do not progress to a biphasic state or develop AESD. Thus, the mitochondrial cocktail should be administered as early as possible to prevent AESD.

Neurotoxicity and PRES after severe citalopram intoxication in a 12-months-old baby

Citalopram intoxications can lead to Serotonin Syndrome (SS) development, characterized by altered mental status, seizures, autonomic instability, hyperthermia and extrapyramidal signs. We review the literature about pediatric acute citalopram intoxications, and we report a case of severe SS in an infant associated to Posterior Reversible Encephalopathy Syndrome (PRES) treated with cyproheptadine as an antidote. An adequate12-month-old girl displayed a sudden global neurological regression with hypotonia, prolonged occipital seizures, right hemiparesis and a progressive wakefulness reduction associated with blindness. Plasmatic concentration of citalopram was equal to 3225 ng/mL (50-110 ng/mL). MRI revealed a transient bilateral caudate and putamen hyperintensity, associated to an occipital cortical and subcortical hyperintensity. She was treated with IV cyproheptadine with progressive benefit in few days. Only 4 children with citalopram intoxication are previously described with neurological involvement. Pediatric citalopram intoxication could cause SS leading to PRES, and cyproheptadine could be used with benefit.

Pharmacological management of prolonged seizures in Dravet syndrome including intravenous phenytoin.

Dravet syndrome (DS) is an infantile onset developmental and epileptic encephalopathy. Sodium channel blockers are known to exacerbate seizures in this syndrome. Due to its high incidence, the management of prolonged seizures is crucial for DS patients. There is still ambiguity regarding the use of intravenous phenytoin for prolonged seizure in DS patients mainly due to the lack of data, raising concern about the safety of it use. We conducted a retrospective study (from January 2009 to January 2020) aiming to assess the management of prolonged seizures in DS with a focus on the use of intravenous phenytoin. Data were collected for patients admitted to our hospital for seizures lasting >5 min. Among 52 identified patients in our database, 23 experienced 59 prolonged seizures managed in our hospital. Only four seizures ceased without rescue medication. Notably, the use of intravenous phenytoin was not associated with discernible adverse effects and was effective in stopping status epilepticus in 71% of cases. This study suggests the safety and efficacy of intravenous phenytoin for prolonged seizure in DS. There is a need for broader investigations of emergency treatments for evidence-based recommendations for the emergency plan of each patient.

Cytoplasmic vacuolization and ectopic formation of perineuronal nets are characteristic pathologies of cytomegalic neurons in tuberous sclerosis.

Cytomegalic neurons, characterized by increased size and a hyperactive mechanistic target of rapamycin complex 1 (mTORC1), are pathognomonic for tuberous sclerosis complex (TSC). To model these neurons, we recently generated a murine Tsc1 conditional knockout model in which Tsc1 deletion in late embryonic radial glia results in neuronal hypertrophy of a subset of isocortical pyramidal neurons. In the current study, we compared the cellular pathology of these cytomegalic neurons to those of the enlarged neurons in human cortical tubers. Neurons from the mice showed unique features, such as cytoplasmic vacuoles associated with Golgi complexes and the ectopic formation of perineuronal nets (PNNs), a feature of inhibitory neurons, rarely present in excitatory cortical neurons. The membranes of these vacuoles were enriched for the plasma membrane proteins CD44, KCC2, and Na+/K+ ATPase, suggesting deficits in Golgi membrane trafficking. These aberrant features in the mouse appeared only after the onset of seizures, probably due to the prolonged seizure activity in the context of constitutive mTORC1 activation. Similar PNNs and cytoplasmic vacuoles were present in the cytomegalic neurons of human cortical tubers. Our findings reveal novel pathological features of Golgi complexes and PNNs in the cytomegalic neurons in TSC.

Improving Quality of Care for Status Epilepticus: Putting Protocols into Practice.

Timely treatment of status epilepticus (SE) improves outcomes, however gaps between recommended and implemented care are common. This review analyzes obstacles and explores interventions to optimize effective, evidence-based treatment of SE. Seizure action plans, rescue medications, and noninvasive wearables with seizure detection capabilities can facilitate early intervention for prolonged seizures in the home and school. In the field, standardized EMS protocols, EMS education, and screening tools can address variability in SE definitions and treatment, particularly benzodiazepine dosing. In the emergency room and hospital, provider education, SE order sets and alerts, and rapid EEG technologies, can shorten time to first-line therapy, second-line therapy, and EEG initiation. Widespread, sustained improvement in SE care remains challenging. A multipronged approach including emphasis on pre-hospital intervention, treatment protocols adapted to local contexts, and SE databases to systematically collect process and outcome metrics have the potential to transform SE treatment and outcomes.

Evaluating the Impact of Point-of-Care Electroencephalography on Length of Stay in the Intensive Care Unit: Subanalysis of the SAFER-EEG Trial.

Electroencephalography (EEG) is needed to diagnose nonconvulsive seizures. Prolonged nonconvulsive seizures are associated with neuronal injuries and deleterious clinical outcomes. However, it is uncertain whether the rapid identification of these seizures using point-of-care EEG (POC-EEG) can have a positive impact on clinical outcomes. In a retrospective subanalysis of the recently completed multicenter Seizure Assessment and Forecasting with Efficient Rapid-EEG (SAFER-EEG) trial, we compared intensive care unit (ICU) length of stay (LOS), unfavorable functional outcome (modified Rankin Scale score ≥ 4), and time to EEG between adult patients receiving a US Food and Drug Administration-cleared POC-EEG (Ceribell, Inc.) and those receiving conventional EEG (conv-EEG). Patient records from January 2018 to June 2022 at three different academic centers were reviewed, focusing on EEG timing and clinical outcomes. Propensity score matching was applied using key clinical covariates to control for confounders. Medians and interquartile ranges (IQRs) were calculated for descriptive statistics. Nonparametric tests (Mann-Whitney U-test) were used for the continuous variables, and the χ2 test was used for the proportions. A total of 283 ICU patients (62 conv-EEG, 221 POC-EEG) were included. The two populations were matched using demographic and clinical characteristics. We found that the ICU LOS was significantly shorter in the POC-EEG cohort compared to the conv-EEG cohort (3.9 [IQR 1.9-8.8] vs. 8.0 [IQR 3.0-16.0] days, p = 0.003). Moreover, modified Rankin Scale functional outcomes were also different between the two EEG cohorts (p = 0.047). This study reveals a significant association between early POC-EEG detection of nonconvulsive seizures and decreased ICU LOS. The POC-EEG differed from conv-EEG, demonstrating better functional outcomes compared with the latter in a matched analysis. These findings corroborate previous research advocating the benefit of early diagnosis of nonconvulsive seizure. The causal relationship between the type of EEG and metrics of interest, such as ICU LOS and functional/clinical outcomes, needs to be confirmed in future prospective randomized studies.

The social and emotional burden of Dravet syndrome on Spanish caregivers

BackgroundDravet syndrome (DS) is a rare developmental and epileptic encephalopathy that presents with frequent and prolonged seizures resistant to treatment as well as cognitive problems such as behavioral and developmental delays. However, there is a lack of scientific literature on the impact of this condition on caregivers and the family unit. ObjectivesTo find out the social and emotional impact of DS on the family unit, to provide a comprehensive understanding of the disease's effects on both the family and caregivers. Materials and methodsA tailored online survey was administered to Spanish DS families, collecting data on the employment, financial, emotional, and social status of patients and caregivers. ResultsA total of 112 Spanish caregivers participated in the study. The mean age of the 112 parents was 46.61 years, and 77.68 % of them were mothers. The majority of caregivers had to quit their jobs or reduce their working hours to take care of their child with DS, being the most of them mothers. Most of the caregivers felt that they were not well-informed by healthcare professionals (HCPs) and the Spanish National Health System (NHS). Despite access to resources, families often face financial strain and challenges in obtaining sufficient support, highlighting the need for enhanced social, economic, and psychological backing. In addition, both sentimental and social relationships were negatively impacted in the vast majority of respondents. ConclusionsThe study advocates for policy reforms, integrated social services, community programs, and multidisciplinary efforts to improve the quality of life and social integration for those affected by DS.

Analysis of Inflammatory Markers and Electroencephalogram Findings in Pediatric Patients with COVID-19: A Single-Center Study in Korea

Purpose: The Omicron variant wave spread rapidly from February 2022 in South Korea following the initial management of the coronavirus disease 2019 (COVID-19) outbreak. This study examined electroencephalogram (EEG) findings and serological inflammatory markers in pediatric patients with COVID-19 (Omicron variant).Methods: We retrospectively reviewed the medical records of 41 patients who presented at Gyeongsang National University Changwon Hospital between March and May 2022 and were diagnosed with COVID-19. All serological tests were performed within 24 hours of fever or seizure onset. Results: The median patient age was 3.6 years (range, 0.08 to 14.00), and the average hospital stay was 3.7 days (range, 1.0 to 7.0). Interleukin-6 (IL-6) levels were elevated above the normal range in all patients (median, 43.18 pg/mL; range, 7.0 to 190.0) and were higher among those who experienced seizures. Of the 41 total patients, 17 (41.5%; mean age, 5.4 years) visited the clinic for seizure. Three patients experienced prolonged seizures (lasting longer than 30 minutes) and received intravenous lorazepam, while eight presented with complex febrile seizures. Nine patients underwent EEG, of whom five exhibited abnormal initial findings. Linear regression demonstrated correlations between prolonged seizure duration and both serum IL-6 level and blood lymphocyte count.Conclusion: Numerous serological markers associated with the immune cascade were found to be elevated in children with COVID-19. Nevertheless, febrile seizures represent a relatively common neurological presentation among pediatric patients infected with Omicron variants. Consequently, COVID-19 infection exhibits both familiar and distinct characteristics regarding the mechanisms inducing seizures and fever in children.

Insight into the Role of Ferroptosis in Epilepsy

Excessively high or synchronized neuronal activity in the brain is the underlying cause of epilepsy, a condition of the central nervous system. Epilepsy is caused mostly by an imbalance in the activity of inhibitory and excitatory neural networks. Recurrent or prolonged seizures lead to neuronal death, which in turn promotes epileptogenesis and epileptic seizures. Ferrous ion-mediated cell death is known as ferroptosis, which is due to the accumulation of lipid peroxidation products resulting from compromise of the glutathione (GSH)-dependent antioxidant system. The pathophysiology of epilepsy has been linked to anomalies in the glutathione peroxidase 4 (GPX4)/GSH redox pathway, lipid peroxidation, and iron metabolism. Studies have shown that inhibiting ferroptosis may alleviate cognitive impairment and decrease seizures, indicating that it is neuroprotective. With the hope of aiding the development of more novel approaches for the management of epilepsy, this research aimed to examine the role of ferroptosis in this disease.

Sodium Houttuyfonate Prevents Seizures and Neuronal Cell Loss by Maintaining Glutamatergic System Stability in Male Rats with Kainic Acid-Induced Seizures.

The present study evaluated the antiseizure and neuroprotective effects of sodium houttuyfonate (SH), a derivative of Houttuynia cordata Thunb. (H. cordata), in a kainic acid (KA)- induced seizure rat model and its underlying mechanism. Sprague Dawley rats were administered normal saline, SH (50 or 100 mg/kg), or carbamazepine (300 mg/kg) by oral gavage for seven consecutive days before the intraperitoneal administration of KA (15 mg/kg). SH showed antiseizure effects at a dose of 100 mg/kg; it prolonged seizure latency and decreased seizure scores. SH also significantly decreased neuronal loss in the hippocampi of KA-treated rats, which was associated with the prevention of glutamate level increase, the upregulation of glutamate reuptake-associated proteins (excitatory amino acid transporters 1-3), glutamate metabolism enzyme glutamine synthetase, the downregulation of the glutamate synthesis enzyme glutaminase, and significant alterations in the expression of AMPA (α-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid receptor) and NMDA (N-methyl-D-aspartic acid receptor) receptor subunits in the hippocampus. Furthermore, the effects of SH were similar to those of the antiseizure drug carbamazepine. Therefore, the results of the present study suggest that SH has antiseizure effects on KA-induced seizures, possibly through the prevention of glutamatergic alterations. Our findings suggest that SH is a potential alternative treatment that may prevent seizures by preserving the normal glutamatergic system.

Identification of etiologies according to baseline clinical features of pediatric new-onset refractory status epilepticus in single center retrospective study

PurposeNew-onset refractory status epilepticus (NORSE) is defined as a state of prolonged seizure activity that does not improve despite the appropriate administration of medications, with underlying causes unknown after the initial diagnosis of status epilepticus. Because episodes of NORSE are accompanied by severe complications and a high risk of mortality, the prompt identification of the underlying cause is crucial for effective treatment and outcome prediction. This study assessed the relationship of NORSE etiologies with baseline clinical features in pediatric population. MethodsSeventy-one pediatric patients, under 18 years of age at the initial diagnosis (4.50 ± 4.04, mean ± standard deviation), who experienced at least one episode of NORSE and underwent a comprehensive diagnostic evaluation between January 2005 and June 2020 at our center, were retrospectively selected. We reviewed clinical features at disease onset and long-term follow-up data. Uniform manifold approximation and projection (UMAP) was used to distinguish etiological clusters according to baseline clinical characteristics, and further analysis was performed based on underlying etiologies. ResultsTwo distinct etiological groups—genetic and non-genetic—were identified based on the UMAP of clinical characteristics. Dravet syndrome (12/15, 80%) was more predominant in patients with a genetic diagnosis, whereas cryptogenic NORSE and encephalitis were prevalent in patients without a genetic diagnosis. The analysis of etiological categories revealed that age at the onset of status epilepticus (P=0.021) and progression to super refractory status epilepticus (SRSE) (P=0.038) were independently associated with differences in etiologies. ConclusionSeveral clinical features in patients with NORSE, including the age of onset and the development of SRSE, can help identify underlying causes, which necessitate prompt and adequate treatment.

Acetaminophen and Ibuprofen in Pediatric Central Nervous System Malaria

A third of children who survive malaria with neurological involvement (central nervous system [CNS] malaria) develop sequelae. A higher maximum temperature (Tmax) and seizures are risk factors for sequelae. To compare aggressive antipyretic therapy using scheduled acetaminophen and ibuprofen vs usual care with acetaminophen alone given only for a temperature of 38.5 °C or higher. This randomized clinical trial was conducted at inpatient pediatric services of 1 tertiary care and 1 district hospital in Zambia and a tertiary care center in Malawi. Included were children aged 2 to 11 years with CNS malaria (excluding those with creatinine >1.2 mg/dL), who were enrolled from 2019 to 2022. Data analysis took place from December 2022 to April 2023. The aggressive antipyretic group received acetaminophen (30 mg/kg load, then 15 mg/kg) plus ibuprofen, 10 mg/kg, every 6 hours, regardless of clinical temperature for 72 hours. The usual care group received 15 mg/kg of acetaminophen as needed every 6 hours for a temperature of 38.5 °C or higher. The primary outcome variable was Tmax over 72 hours, the total duration of follow-up. Secondary outcomes included seizures and parasite clearance. Five hundred fifty-three patients were screened, 226 (40.9%) were ineligible, and 57 (10.3%) declined. A total 256 participants (n = 128/group) had a mean (SD) age of 4.3 (2.1) years; 115 (45%) were female, and 141 (55%) were male. The aggressive antipyretic group had a lower Tmax, 38.6 vs 39.2 °C (difference, -0.62 °C; 95% CI, -0.82 to -0.42; P < .001) and lower odds of experiencing multiple or prolonged seizures, 10 (8%) vs 34 children (27%) in the usual care group (odds ratio [OR], 0.26; 95% CI, 0.12 to 0.56). No group difference in parasite clearance time was detected. Severe adverse events occurred in 40 children (15%), 25 (20%) in the usual care group and 15 (12%) in the aggressive antipyretic group, including 13 deaths (10 [8%] and 3 [2%], respectively). Increased creatinine resulted in study drug discontinuation in 8 children (6%) in the usual care group and 13 children (10%) in the aggressive antipyretic group (OR, 1.74; 95% CI, 0.63 to 5.07). This study found that aggressive antipyretic therapy reduced mean Tmax to temperature levels comparable with the Tmax among children without neurological impairments in prior observational studies and improved acute seizure outcomes with no prolongation of parasitemia. ClinicalTrials.gov Identifier: NCT03399318.

Molecular Genetics of Acquired Temporal Lobe Epilepsy.

An epilepsy diagnosis reduces a patient's quality of life tremendously, and it is a fate shared by over 50 million people worldwide. Temporal lobe epilepsy (TLE) is largely considered a nongenetic or acquired form of epilepsy that develops in consequence of neuronal trauma by injury, malformations, inflammation, or a prolonged (febrile) seizure. Although extensive research has been conducted to understand the process of epileptogenesis, a therapeutic approach to stop its manifestation or to reliably cure the disease has yet to be developed. In this review, we briefly summarize the current literature predominately based on data from excitotoxic rodent models on the cellular events proposed to drive epileptogenesis and thoroughly discuss the major molecular pathways involved, with a focus on neurogenesis-related processes and transcription factors. Furthermore, recent investigations emphasized the role of the genetic background for the acquisition of epilepsy, including variants of neurodevelopmental genes. Mutations in associated transcription factors may have the potential to innately increase the vulnerability of the hippocampus to develop epilepsy following an injury-an emerging perspective on the epileptogenic process in acquired forms of epilepsy.

Outpatient management of prolonged seizures and seizure clusters to prevent progression to a higher-level emergency: Consensus recommendations of an expert working group.

The management of prolonged seizures (PS) and seizure clusters (SC) is impeded by the lack of international, evidence-based guidance. We aimed to develop expert recommendations regarding consensus definitions of PS, SC, and treatment goals to prevent progression to higher-level emergencies such as status epilepticus (SE). An expert working group, comprising 12 epileptologists, neurologists, and pharmacologists from Europe and North America, used a modified Delphi consensus methodology to develop and anonymously vote on statements. Consensus was defined as ≥75% voting "Agree"/"Strongly agree." All group members strongly agreed that termination of an ongoing seizure in as short a time as possible is the primary goal of rapid and early seizure termination (REST) and that an ideal medication for REST would start to act within 2 min of administration to terminate ongoing seizure activity. Consensus was reached on the terminology defining PS (with proposed thresholds of 5 min for prolonged focal seizures and 2 min for prolonged absence seizures and the convulsive phase of bilateral tonic-clonic seizures) and SC (an abnormal increase in seizure frequency compared with the individual patient's usual seizure pattern). All group members strongly agreed or agreed that patients who have experienced a PS should be offered a REST medication, and all patients who have experienced a SC should be offered an acute cluster treatment (ACT). Further, when prescribing a REST medication or ACT, a seizure action plan should be agreed upon in consultation with the patient and caregiver. The expert working group had a high level of agreement on the recommendations for defining and managing PS and SC. These recommendations will complement the existing guidance for the management of acute seizures, with the possibility of treating them earlier to potentially avoid progression to more severe seizures, including SE.