A high seizure burden increases several prostaglandin species in the hippocampus of a Scn1a+/- mouse model of Dravet syndrome.

Dravet syndrome is an intractable epilepsy with a high seizure burden that is resistant to current anti-seizure medications. There is evidence that neuroinflammation plays a role in epilepsy and seizures, however few studies have specifically examined neuroinflammation in Dravet syndrome under conditions of a higher seizure burden. Here we used an established genetic mouse model of Dravet syndrome (Scn1a+/- mice), to examine whether a higher seizure burden impacts the number and morphology of microglia in the hippocampus. Moreover, we examined whether a high seizure burden influences classical inflammatory mediators in this brain region. Scn1a+/- mice with a high seizure burden induced by thermal priming displayed a localised reduction in microglial cell density in the granule cell layer and subgranular zone of the dentate gyrus, regions important to postnatal neurogenesis. However, microglial cell number and morphology remained unchanged in other hippocampal subfields. The high seizure burden in Scn1a+/- mice did not affect hippocampal mRNA expression of classical inflammatory mediators such as interleukin 1ß and tumour necrosis factor α, but increased cyclooxygenase 2 (COX-2) expression. We then quantified hippocampal levels of prostanoids that arise from COX-2 mediated metabolism of fatty acids and found that Scn1a+/- mice with a high seizure burden displayed increased hippocampal concentrations of numerous prostaglandins, notably PGF2α, PGE2, PGD2, and 6-K-PGF1A, compared to Scn1a+/- mice with a low seizure burden. In conclusion, a high seizure burden increased hippocampal concentrations of various prostaglandin mediators in a mouse model of Dravet syndrome. Future studies could interrogate the prostaglandin pathways to further better understand their role in the pathophysiology of Dravet syndrome.

A quantitative cross-sectional study of the burden of caring for patients with Lennox-Gastaut syndrome, Dravet syndrome, and tuberous sclerosis complex-associated epilepsy in Japan.

INTRODUCTION: Lennox-Gastaut syndrome (LGS), Dravet syndrome (DS), and tuberous sclerosis complex (TSC)-associated epilepsy are rare conditions associated with severe childhood-onset epilepsy. Caregivers play a critical role in the patients' care and may experience significant psychosocial and socioeconomic burden. This cross-sectional study determined the burden of caring for patients with these rare epilepsy conditions in Japan. METHODS: A quantitative online survey was used to assess patients' and caregivers' characteristics and the caregivers' emotional state, among others. Several validated questionnaires were used: the Hospital Anxiety and Depression Scale (HADS; 0-21 score) assessed the caregivers' emotional wellbeing, the Pediatric Quality of Life Inventory Family Impact Module (PedsQL FIM; 0-100 score) assessed the health-related quality of life (HRQoL) of the caregivers and their families, and the Work Productivity and Activity Impairment General Health (WPAI:GH; 0-100 % score) questionnaire assessed work productivity. RESULTS: A total of 36 caregivers responded (median [interquartile range (IQR)] age 43.5 [39.5, 48.3] years; 33/36 [92 %] female; 13/36 [36 %] working part-time and 13/36 [36 %] not working). Participants cared for 7/36 (19 %), 19/36 (53 %), and 10/36 (28 %) patients with LGS, DS, and TSC, respectively (median [IQR] age, 11.0 [6.8, 16.3] years; age at first seizure, 0 [0, 0] years). Patients received a median (IQR) of 4 (3, 5) treatment drug types. Patients experienced median (IQR) 3.0 (0, 21.0) epileptic seizures in the previous week; 28/36 (78 %) had severe intellectual disabilities, and 34/36 (94 %) had developmental delays. Caregivers reported stress (17/36 [47 %]), sleep problems (13/36 [36 %]), and anxiety (12/36 [33 %]). They spent a median (IQR) of 50.0 (17.5, 70.0) hours caregiving in the previous week, with 3.0 (1.0, 11.0) hours of seizure-specific care. Caregivers reported that their lives would be easier with a median (IQR) of 1.5 (0, 5.0) hours fewer per week caring for patients during/following seizures. Median HADS scores were 9.5 ('suspected anxiety diagnosis') and 7.5 ('no depression') for caregivers, and PedsQL FIM Total median score was 60.1, indicating HRQoL impairment for the caregiver and their family. WPAI:GH scores for paid workers indicated important work impairment. Higher caregiving hours (≥ 21 h vs. < 21 h in the previous week) resulted in higher caregiver burden as indicated by the HADS Total score (p = 0.0062) and PedsQL FIM Total score (p = 0.0007). CONCLUSIONS: Caregivers of patients with LGS, DS, or TSC in Japan experience a significant time burden, reduced HRQoL, and high level of work/activity impairment. Caregivers provide round-the-clock care to patients and rely on family and specialized caring services to help manage the increased caregiving time, which tends to be associated with greater emotional burden and HRQoL impact.

Pentanucleotide Repeat Insertions in RAI1 Cause Benign Adult Familial Myoclonic Epilepsy Type 8.

BACKGROUND: Benign adult familial myoclonic epilepsy (BAFME) is an autosomal dominant disorder characterized by cortical tremors and seizures. Six types of BAFME, all caused by pentanucleotide repeat expansions in different genes, have been reported. However, several other BAFME cases remain with no molecular diagnosis. OBJECTIVES: We aim to characterize clinical features and identify the mutation causing BAFME in a large Malian family with 10 affected members. METHODS: Long-read whole genome sequencing, repeat-primed polymerase chain reaction and RNA studies were performed. RESULTS: We identified TTTTA repeat expansions and TTTCA repeat insertions in intron 4 of the RAI1 gene that co-segregated with disease status in this family. TTTCA repeats were absent in 200 Malian controls. In the affected individuals, we found a read with only nine TTTCA repeat units and somatic instability. The RAI1 repeat expansions cause the only BAFME type in which the disease-causing repeats are in a gene associated with a monogenic disorder in the haploinsufficiency state (ie, Smith-Magenis syndrome [SMS]). Nevertheless, none of the Malian patients exhibited symptoms related to SMS. Moreover, leukocyte RNA levels of RAI1 in six Malian BAFME patients were no different from controls. CONCLUSIONS: These findings establish a new type of BAFME, BAFME8, in an African family and suggest that haploinsufficiency is unlikely to be the main pathomechanism of BAFME. © 2023 International Parkinson and Movement Disorder Society. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

Anticonvulsant effect of equilibrative nucleoside transporters 1 inhibitor in a mouse model of Dravet syndrome.

There are limited therapeutic options for patients with Dravet syndrome (DS). The equilibrative nucleoside transporters 1 (ENT1) mediate both the influx and efflux of adenosine across the cell membrane exerted beneficial effects in the treatment of epilepsy. This study aimed to evaluate the anticonvulsant effect of the ENT1 inhibitor in an animal model of DS (Scn1aE1099X/+ mice). J7 (5 mg/kg) treatment was efficacious in elevating seizure threshold in Scn1aE1099X/+ mice after hyperthermia exposure. Moreover, the J7 treatment significantly reduced the frequency of spontaneous excitatory post-synaptic currents (sEPSCs, ~35% reduction) without affecting the amplitude in dentate gyrus (DG) granule cells. Pretreatment with the adenosine A1 receptor (A1R) antagonist, DPCPX, abolished the J7 effects on sEPSCs. These observations suggest that the J7 shows an anticonvulsant effect in hyperthermia-induced seizures in Scn1aE1099X/+ mice. This effect possibly acts on presynaptic A1R-mediated signaling modulation in granule cells.

Epilepsy in KBG Syndrome: Report of Additional Cases.

BACKGROUND: KBG syndrome is a genetic disorder characterized by short stature, dysmorphic features, macrodontia, cognitive impairment, and limb anomalies. Epilepsy is an important comorbidity associated with KBG syndrome, although the entire phenotypic spectrum may not be fully appreciated. METHODS: We identified five new patients with KBG syndrome-related epilepsy and compared their phenotype to previously reported cases in the literature. RESULTS: Five patients with KBG syndrome-related epilepsy were identified. Three patients (60%) were male. Median age of seizure onset was 18 months (interquartile range 5, 32). The epilepsy type was generalized in three patients (60%); in two, the epilepsy type was combined (40%), with focal and generalized seizures. In one patient (20%), the epilepsy syndrome was classifiable and the child was diagnosed with myoclonic-atonic epilepsy. All five patients had pathogenic variants in the ANKRD11 gene. Epilepsy was refractory in two patients (40%). No specific antiseizure medication (ASM) was found to be superior. Literature review yielded 134 cases, median age of seizure onset was 4 years, and seizures were generalized (n = 60, 44%), focal (n = 26, 19%), or combined (n = 13, 10%). An epilepsy syndrome was diagnosed in 12 patients (8.8%). In those with documented response to ASM (n = 49), 22.4% were refractory (n = 11). CONCLUSIONS: Our study confirms that few patients with epilepsy and KBG syndrome have an identifiable epilepsy syndrome and generalized seizures are most common. We highlight that epilepsy associated with KBG syndrome may occur before age one year and should be an important diagnostic consideration in this age group.

Epileptogenic focal lesions in Dravet syndrome: A warning to investigators.

OBJECTIVE: Most patients with Dravet syndrome (DS) have unremarkable neuroimaging studies. However, a small number of patients exhibit focal abnormalities that may modify the epilepsy phenotype. We report a case series of DS patients carrying SCN1A variants concurrent with additional focal brain lesions, aiming to provide details regarding their clinical course, electrographic findings, and imaging features. METHODS: We reviewed the electronic medical records of patients with developmental and epileptic encephalopathies in our center, from January 2000 to December 2022, identifying 90 patients with DS resulting from SCN1A variants. Of these, patients displaying focal brain lesions were eligible. RESULTS: Five patients (4 males and 1 female), with median age of 26 years, were included. All exhibited clinical and electroencephalographic features consistent with the DS spectrum. Sequencing analysis of the SCN1A gene identified pathogenic variants. Magnetic resonance imaging (MRI) revealed focal cortical dysplasia (FCD) in two patients, while the remaining three had cystic lesions. Three patients had previously undergone resective epilepsy surgery in other centers, with no improvement in seizure frequency. Neuropathology studies revealed the presence of FCD type IIA, intracranial teratomas, and dysembryoplastic neuroepithelial tumor (DNET). SIGNIFICANCE: When an individual with an established diagnosis of genetic epilepsy and a focal lesion on MRI is undergoing preoperative evaluation, it is crucial to conduct a comprehensive analysis to understand the relevance of the focal finding for the patient's phenotype and thus anticipate potential surgical outcomes. In instances where epilepsy in DS patients is influenced by a specific focal structural lesion, resective surgery should be carefully considered after precise pharmacological treatment, acknowledging the persistent influence of an SCN1A variant on expected outcomes.

Photosensitive Peptide Enabling Molecular Recognition Tandem Covalent Biosensing for Evaluating and Preventing Venous Thromboembolism in Dravet Syndrome.

Venous thromboembolism (VTE) is a complication of Dravet syndrome, accounting for many unexpected deaths. To control VTE more tightly and to prevent such tragedies, a reliable and low-cost risk evaluation assay is urgently needed, so that the daily routine of VTE risk evaluation can be established. In this work, we have developed such an assay combining the photocatalytic activity of Bengal red to trigger the target-specific self-splicing of a peptide probe and subsequent cross-linking with P-selectin. Following this protocol, a robust and one-step detection can be achieved, without using any costly enzymes, antibodies, or nanomaterials, but the same level of sensitivity and robustness can be attained. Specifically, the effect of epilepsy on elevating platelet P-selectin can be observed by using the proposed assay. This may in the near future promise a new method for evaluating the side effects of P-selectin through relatively noninvasive peripheral blood sampling.

Preferential expression of SCN1A in GABAergic neurons improves survival and epileptic phenotype in a mouse model of Dravet syndrome.

The SCN1A gene encodes the alpha subunit of a voltage-gated sodium channel (Nav1.1), which is essential for the function of inhibitory neurons in the brain. Mutations in this gene cause severe encephalopathies such as Dravet syndrome (DS). Upregulation of SCN1A expression by different approaches has demonstrated promising therapeutic effects in preclinical models of DS. Limiting the effect to inhibitory neurons may contribute to the restoration of brain homeostasis, increasing the safety and efficacy of the treatment. In this work, we have evaluated different approaches to obtain preferential expression of the full SCN1A cDNA (6 Kb) in GABAergic neurons, using high-capacity adenoviral vectors (HC-AdV). In order to favour infection of these cells, we considered ErbB4 as a surface target. Incorporation of the EGF-like domain from neuregulin 1 alpha (NRG1α) in the fiber of adenovirus capsid allowed preferential infection in cells lines expressing ErbB4. However, it had no impact on the infectivity of the vector in primary cultures or in vivo. For transcriptional control of transgene expression, we developed a regulatory sequence (DP3V) based on the Distal-less homolog enhancer (Dlx), the vesicular GABA transporter (VGAT) promoter, and a portion of the SCN1A gene. The hybrid DP3V promoter allowed preferential expression of transgenes in GABAergic neurons both in vitro and in vivo. A new HC-AdV expressing SCN1A under the control of this promoter showed improved survival and amelioration of the epileptic phenotype in a DS mouse model. These results increase the repertoire of gene therapy vectors for the treatment of DS and indicate a new avenue for the refinement of gene supplementation in this disease. KEY MESSAGES: Adenoviral vectors can deliver the SCN1A cDNA and are amenable for targeting. An adenoviral vector displaying an ErbB4 ligand in the capsid does not target GABAergic neurons. A hybrid promoter allows preferential expression of transgenes in GABAergic neurons. Preferential expression of SCN1A in GABAergic cells is therapeutic in a Dravet syndrome model.

Real-world evidence on the use of cannabidiol for the treatment of drug resistant epilepsy not related to Lennox-Gastaut syndrome, Dravet syndrome or Tuberous Sclerosis Complex.

INTRODUCTION: Highly purified cannabidiol (CBD) has a broad spectrum of action and could be useful for the treatment of drug resistant epilepsy regardless of etiology or syndrome. MATERIALS AND METHODS: Multicenter retrospective study that evaluated the efficacy and safety of CBD for the treatment of drug resistant epilepsy of different etiologies in patients >2 years of age. RESULTS: Seventy-eight patients with a median age of 24 years and a wide spectrum of mainly structural and genetic etiologies were included. Patients were using a median of 3 antiseizure drugs (IQR=2-4) and had a median of 30 monthly seizures (IQR=12-100) before starting CBD. The median treatment time with CBD was 14 months (IQR=10-17). The efficacy analysis at the last available visit showed that mean percent reduction in seizures, ≥50% reduction in seizure frequency and seizure freedom was 67.8%, 68.8% and 11.5% respectively. We found no significant impact of concomitant clobazam use on the efficacy and safety of CBD. In the safety analysis, 28.2% (n = 22) of patients presented adverse events related to CBD and drug-retention rate was 78.2%. CONCLUSIONS: In a real-world setting, highly purified CBD has been shown to be safe and effective for the treatment of drug resistant epilepsy not related to Lennox-Gastaut syndrome, Dravet syndrome or Tuberous Sclerosis Complex. Based on these findings, highly purified CBD should be considered as an adjuvant therapy for drug resistant epilepsy, regardless of its underlying cause or specific syndrome. Nevertheless, this assumption should be validated through further controlled trials.

New GABA-Targeting Therapies for the Treatment of Seizures and Epilepsy: II. Treatments in Clinical Development.

The inhibitory neurotransmitter γ-aminobutyric acid (GABA) plays an important role in the modulation of neuronal excitability, and a disruption of GABAergic transmission contributes to the pathogenesis of some seizure disorders. Although many currently available antiseizure medications do act at least in part by potentiating GABAergic transmission, there is an opportunity for further research aimed at developing more innovative GABA-targeting therapies. The present article summarises available evidence on a number of such treatments in clinical development. These can be broadly divided into three groups. The first group consists of positive allosteric modulators of GABAA receptors and includes Staccato® alprazolam (an already marketed benzodiazepine being repurposed in epilepsy as a potential rescue inhalation treatment for prolonged and repetitive seizures), the α2/3/5 subtype-selective agents darigabat and ENX-101, and the orally active neurosteroids ETX155 and LPCN 2101. A second group comprises two drugs already marketed for non-neurological indications, which could be repurposed as treatments for seizure disorders. These include bumetanide, a diuretic agent that has undergone clinical trials in phenobarbital-resistant neonatal seizures and for which the rationale for further development in this indication is under debate, and ivermectin, an antiparasitic drug currently investigated in a randomised double-blind trial in focal epilepsy. The last group comprises a series of highly innovative therapies, namely GABAergic interneurons (NRTX-001) delivered via stereotactic cerebral implantation as a treatment for mesial temporal lobe epilepsy, an antisense oligonucleotide (STK-001) aimed at upregulating NaV1.1 currents and restoring the function of GABAergic interneurons, currently tested in a trial in patients with Dravet syndrome, and an adenoviral vector-based gene therapy (ETX-101) scheduled for investigation in Dravet syndrome. Another agent, a subcutaneously administered neuroactive peptide (NRP2945) that reportedly upregulates the expression of GABAA receptor α and ß subunits is being investigated, with Lennox-Gastaut syndrome and other epilepsies as proposed indications. The diversity of the current pipeline underscores a strong interest in the GABA system as a target for new treatment development in epilepsy. To date, limited clinical data are available for these investigational treatments and further studies are required to assess their potential value in addressing unmet needs in epilepsy management.

Modified Atkins diet in children with epilepsy with eyelid myoclonia (Jeavons syndrome).

BACKGROUND: Epilepsy with eyelid myoclonia(EEM) or Jeavons syndrome is considered a genetic generalized epilepsy with a typical age of onset in childhood. Many types of seizures can be observed, including eyelid myoclonia, absence, generalized tonic-clonic, and myoclonic seizures. Seizures tend to be difficult to control requiring polypharmacy treatment or become drug-resistant. Dietary therapy, particularly with Modified Atkins Diet (MAD), as a treatment of seizures in this syndrome has rarely been studied. We report efficacy and tolerability of MAD in children with epilepsy with eyelid myoclonia. METHODS: We reviewed medical records of children with EEM treated at the University of Chicago Ketogenic Diet program from 2017 to 2022. Patient's demography, seizure characteristics, EEG findings, response to treatment, and adverse effects were reviewed. RESULT: Six patients with EEM were identified. Average age of seizure onset was 6 (2-11) years and an average age when the MAD started was 10.7 (6-15) years. All patients were started on MAD and completed at least 6 months on the diet at the time of report. An average of 4 (0-9) anti-seizure medications (ASM) had been tried prior to the MAD. All patients achieved ketosis with an average level of serum beta-hydroxybutyrate of 1.9 (1.03-3.61) mmol/L. At the 6-month follow-up visit, all patients (100%) experienced a greater than 50% seizure reduction, 3/6 patients (50%) had more than 90% seizure reduction, 1/6 patients (17%) became seizure-free. All seizure types demonstrated a greater than 80% reduction in frequency.Absence and myoclonic seizures showed the greatest reduction with 100% seizure reduction. Eyelid myoclonia and generalized tonic-clonic seizures showed more than 80% seizure reduction.Moreover, all patients reported improvement in alertness, mood, and concentration. Initial weight loss and mild gastrointestinal disturbances were reported in 2/6 patients (33%) and corrected with dietary adjustment. CONCLUSION: The Modified Atkins Diet has shown to be effective and welltolerated for children with EEM in our study. Cognitive improvement has also been subjectively reported in all patients. Adverse effects are tolerable and correctable. The MAD, therefore, may be considered as a treatment option for patients with epilepsy with eyelid myoclonia.

Creating rare epilepsy cohorts using keyword search in electronic health records.

OBJECTIVE: Administrative codes to identify people with rare epilepsies in electronic health records are limited. The current study evaluated the use of keyword search as an alternative method for rare epilepsy cohort creation using electronic health records data. METHODS: Data included clinical notes from encounters with International Classification of Diseases, Ninth Revision (ICD-9) codes for seizures, epilepsy, and/or convulsions during 2010-2014, across six health care systems in New York City. We identified cases with rare epilepsies by searching clinical notes for keywords associated with 33 rare epilepsies. We validated cases via manual chart review. We compared the performance of keyword search to manual chart review using positive predictive value (PPV), sensitivity, and F-score. We selected an initial combination of keywords using the highest F-scores. RESULTS: Data included clinical notes from 77 924 cases with ICD-9 codes for seizures, epilepsy, and/or convulsions. The all-keyword search method identified 6095 candidates, and manual chart review confirmed that 2068 (34%) had a rare epilepsy. The initial combination method identified 1862 cases with a rare epilepsy, and this method performed as follows: PPV median = .64 (interquartile range [IQR] = .50-.81, range = .20-1.00), sensitivity median = .93 (IQR = .76-1.00, range = .10-1.00), and F-score median = .71 (IQR = .63-.85, range = .18-1.00). Using this method, we identified four cohorts of rare epilepsies with over 100 individuals, including infantile spasms, Lennox-Gastaut syndrome, Rett syndrome, and tuberous sclerosis complex. We identified over 50 individuals with two rare epilepsies that do not have specific ICD-10 codes for cohort creation (epilepsy with myoclonic atonic seizures, Sturge-Weber syndrome). SIGNIFICANCE: Keyword search is an effective method for cohort creation. These findings can improve identification and surveillance of individuals with rare epilepsies and promote their referral to specialty clinics, clinical research, and support groups.

VIP interneuron impairment promotes in vivo circuit dysfunction and autism-related behaviors in Dravet syndrome.

Dravet syndrome (DS) is a severe neurodevelopmental disorder caused by loss-of-function variants in SCN1A, which encodes the voltage-gated sodium channel subunit Nav1.1. We recently showed that neocortical vasoactive intestinal peptide interneurons (VIP-INs) express Nav1.1 and are hypoexcitable in DS (Scn1a+/-) mice. Here, we investigate VIP-IN function at the circuit and behavioral level by performing in vivo 2-photon calcium imaging in awake wild-type (WT) and Scn1a+/- mice. VIP-IN and pyramidal neuron activation during behavioral transition from quiet wakefulness to active running is diminished in Scn1a+/- mice, and optogenetic activation of VIP-INs restores pyramidal neuron activity to WT levels during locomotion. VIP-IN selective Scn1a deletion reproduces core autism-spectrum-disorder-related behaviors in addition to cellular- and circuit-level deficits in VIP-IN function, but without epilepsy, sudden death, or avoidance behaviors seen in the global model. Hence, VIP-INs are impaired in vivo, which may underlie non-seizure cognitive and behavioral comorbidities in DS.

SCN1A as a therapeutic target for Dravet syndrome.

INTRODUCTION: Dravet syndrome is a severe early infancy-onset developmental and epileptic encephalopathy. Patients have drug-resistant seizures, as well as significant co-morbidities, including developmental impairment, crouch gait, sleep disturbance, and early mortality. The underlying cause is mutations in SCN1A, encoding the sodium channel subunit NaV1.1, in >90% of patients. At present, approved Dravet syndrome treatments are symptomatic, primarily aimed at reducing seizure frequency, but having little to no effect on co-morbidities. AREAS COVERED: We discuss the potential to treat Dravet syndrome by targeting NaV1.1 directly. Anti-seizure medications that act as sodium channel inhibitors are generally minimally effective and can actually exacerbate seizures. However, other interventions are currently under investigation, including gene therapies that increase the amount of functional NaV1.1. Some of these interventions have encouraging pre-clinical data from in vitro and animal models. EXPERT OPINION: Increasing functional NaV1.1 via antisense oligonucleotides or virus-borne vectors is the most promising avenue for meaningful improvement in Dravet syndrome treatment, with the potential to not only reduce seizures but also address the multiple co-morbidities associated with this disease. However, human clinical trial data are necessary to determine safety and to clarify if, and to what extent, these interventions modify the natural history of Dravet syndrome.

Cannabidiol in children with treatment-resistant epilepsy with myoclonic-atonic seizures.

PURPOSE: This multicenter study aimed to evaluate the efficacy and tolerability of add-on cannabidiol (CBD) in treatment-resistant patients with epilepsy with myoclonic-atonic seizures (EMAtS) (n = 22) and Sturge Weber syndrome (SWS) with myoclonic-atonic seizures (n = 4). METHODS: Patients who met the diagnostic criteria of treatment-resistant EMAtS or SWS with myoclonic-atonic seizures were included. Cannabidiol was added in doses ranging from 8 to 40 mg/kg/day. Efficacy was assessed by comparing seizure frequency before and after initiating CBD therapy. Neurologic examinations, brain magnetic resonance imaging, repeated prolonged electroencephalography (EEG) and/or video-EEG recordings, and neurometabolic studies were performed in all patients, and genetic investigations in 15. RESULTS: After a mean follow-up of 19 months, 15/26 patients (57.7%) who received add-on CBD had a >50% seizure decrease; three (11.5%) became seizure-free. The remaining 11 patients (42.3%) had a 25-50% seizure reduction. Drop attacks, including myoclonic-atonic seizures and generalized tonic-clonic seizures, as well as atypical absences and nonconvulsive status epilepticus responded well to CBD. In SWS patients, focal motor seizures without consciousness impairment and focal non-motor seizures with consciousness impairment were recognized in two each; in three a 30% reduction of focal seizures was observed. Side effects were mild and did not lead to CBD discontinuation. CONCLUSION: This study evaluating the use of add-on CBD in children with EMAtS or SWS with myoclonic-atonic seizures found that 15/26 (57.7%) had a >50% seizure reduction with good tolerability; three (11.5%) became seizure-free.

Widespread genomic influences on phenotype in Dravet syndrome, a 'monogenic' condition.

Dravet syndrome is an archetypal rare severe epilepsy, considered 'monogenic', typically caused by loss-of-function SCN1A variants. Despite a recognizable core phenotype, its marked phenotypic heterogeneity is incompletely explained by differences in the causal SCN1A variant or clinical factors. In 34 adults with SCN1A-related Dravet syndrome, we show additional genomic variation beyond SCN1A contributes to phenotype and its diversity, with an excess of rare variants in epilepsy-related genes as a set and examples of blended phenotypes, including one individual with an ultra-rare DEPDC5 variant and focal cortical dysplasia. The polygenic risk score for intelligence was lower, and for longevity, higher, in Dravet syndrome than in epilepsy controls. The causal, major-effect, SCN1A variant may need to act against a broadly compromised genomic background to generate the full Dravet syndrome phenotype, whilst genomic resilience may help to ameliorate the risk of premature mortality in adult Dravet syndrome survivors.

IRF2BPL as a novel causative gene for progressive myoclonus epilepsy.

IRF2BPL has recently been described as a novel cause of neurodevelopmental disorders with multisystemic regression, epilepsy, cerebellar symptoms, dysphagia, dystonia, and pyramidal signs. We describe a novel IRF2BPL phenotype consistent with progressive myoclonus epilepsy (PME) in three novel subjects and review the features of the 31 subjects with IRF2BPL-related disorders previously reported. Our three probands, aged 28-40 years, harbored de novo nonsense variants in IRF2BPL (c.370C > T, p.[Gln124*] and c.364C > T; p.[Gln122*], respectively). From late childhood/adolescence, they presented with severe myoclonus epilepsy, stimulus-sensitive myoclonus, and progressive cognitive, speech, and cerebellar impairment, consistent with a typical PME syndrome. The skin biopsy revealed massive intracellular glycogen inclusions in one proband, suggesting a similar pathogenic pathway to other storage disorders. Whereas the two older probands were severely affected, the younger proband had a milder PME phenotype, partially overlapping with some of the previously reported IRF2BPL cases, suggesting that some of them might be unrecognized PME. Interestingly, all three patients harbored protein-truncating variants clustered in a proximal, highly conserved gene region around the "coiled-coil" domain. Our data show that PME can be an additional phenotype within the spectrum of IRF2BPL-related disorders and suggest IRF2BPL as a novel causative gene for PME.

Tratamientos empleados para el síndrome de Dravet / Treatments used for Dravet syndrome / Tratamentos usados para a síndrome de Dravet

Se estima que el síndrome de Dravet (SD) es una encefalopatía epiléptica y de desarrollo grave, que ocurre en 1 de cada 15000 nacidos vivos. Se caracteriza por una epilepsia resistente a los medicamentos que se presenta en el primer año de vida con convulsiones prolongadas acompañadas de fiebre o cambios de temperatura, a menudo de naturaleza hemiclónica, seguidas de convulsiones no provocadas de diversos tipos. Objetivo. Describir los tratamientos empleados para el Síndrome de Dravet. Metodología. Se realizó una revisión sistemática. Para ello, se ejecutó una búsqueda en múltiples bases de datos, como Pubmed, Dialnet, Sciencedirect, Scielo y Scopus. La búsqueda se limitó a los artículos publicados desde el año 2017 hasta el 2022. Después de recopilar los artículos, se aplicaron varios criterios de filtrado para asegurarse de que sólo se incluyeran aquellos estudios que eran pertinentes para el análisis. Conclusión. Los tratamientos actuales, como los medicamentos antiepilépticos, las dietas cetogénicas y la estimulación nerviosa, han demostrado ser efectivos para reducir la frecuencia y la gravedad de las convulsiones en los pacientes. Es importante que los pacientes y sus cuidadores trabajen en conjunto con un equipo médico para lograr la mejor gestión posible de la enfermedad. Aunque no se dispone de una cura definitiva para el Síndrome de Dravet, los avances médicos continúan proporcionando esperanza y opciones de tratamiento a los pacientes y sus familias.

Dravet syndrome (DS) is estimated to be a severe developmental and epileptic encephalopathy, occurring in 1 in 15000 live births. It is characterized by drug-resistant epilepsy presenting in the first year of life with prolonged seizures accompanied by fever or temperature changes, often hemiclonic in nature, followed by unprovoked seizures of various types. Objective. To describe the treatments used for Dravet syndrome. Methodology. A systematic review was performed. For this purpose, a search was carried out in multiple databases, such as Pubmed, Dialnet, Sciencedirect, Scielo and Scopus. The search was limited to articles published from 2017 to 2022. After collecting the articles, several filtering criteria were applied to ensure that only those studies that were relevant to the analysis were included. Conclusion. Current treatments, such as antiepileptic drugs, ketogenic diets, and nerve stimulation, have been shown to be effective in reducing the frequency and severity of seizures in patients. It is important that patients and their caregivers work together with a medical team to achieve the best possible management of the disease. Although there is no definitive cure for Dravet syndrome, medical advances continue to provide hope and treatment options for patients and their families.

Estima-se que a síndrome de Dravet (SD) seja uma encefalopatia epiléptica e de desenvolvimento grave, que ocorre em 1 a cada 15.000 nascidos vivos. Caracteriza-se por epilepsia resistente a medicamentos que se apresenta no primeiro ano de vida com convulsões prolongadas acompanhadas de febre ou alterações de temperatura, muitas vezes de natureza hemiclônica, seguidas de convulsões não provocadas de vários tipos. Objetivo. Descrever os tratamentos usados para a síndrome de Dravet. Metodologia. Foi realizada uma revisão sistemática. Para isso, foi realizada uma pesquisa em vários bancos de dados, como Pubmed, Dialnet, Sciencedirect, Scielo e Scopus. A pesquisa foi limitada a artigos publicados de 2017 a 2022. Após a coleta dos artigos, vários critérios de filtragem foram aplicados para garantir que apenas os estudos relevantes para a análise fossem incluídos. Conclusão. Os tratamentos atuais, como medicamentos antiepilépticos, dietas cetogênicas e estimulação nervosa, demonstraram ser eficazes na redução da frequência e da gravidade das convulsões nos pacientes. É importante que os pacientes e seus cuidadores trabalhem em conjunto com uma equipe médica para obter o melhor controle possível da doença. Embora não haja uma cura definitiva para a Síndrome de Dravet, os avanços médicos continuam a oferecer esperança e opções de tratamento para os pacientes e suas famílias.

Investigational new drugs for the treatment of Dravet syndrome: an update.

INTRODUCTION: While there are already approved anticonvulsants for treatment of children with Dravet syndrome, disease modifying therapy is at its beginning. AREAS COVERED: This narrative review is updating the latest information about efficacy and safety of both anticonvulsant and disease modifying investigational drugs for Dravet syndrome. Relevant publications were searched for in MEDLINE, GOOGLE SCHOLAR, SCINDEKS, and CLINICALTRIALS.GOV databases, from the dates of their foundation till January 2023. EXPERT OPINION: The main advancements were made in the treatment of Dravet syndrome with confirmed haploinsufficiency of SCN1A gene. The application of antisense oligonucleotides has so far proven to be the most successful within disease-modifying therapy, but it also requires further refinement of the methodology of application and delivery to target cells, as well as additional testing of the effectiveness of antisense oligonucleotides outside of TANGO technology. Also, the full potential of gene therapy has yet to be explored, given that high capacity adenoviral vectors that can incorporate the SCN1A gene have recently been prepared.