Is tuberous sclerosis complex-associated autism a preventable and treatable disorder?

BACKGROUND: Tuberous sclerosis complex (TSC) is a genetic disorder caused by inactivating mutations in the TSC1 and TSC2 genes, causing overactivation of the mechanistic (previously referred to as mammalian) target of rapamycin (mTOR) signaling pathway in fetal life. The mTOR pathway plays a crucial role in several brain processes leading to TSC-related epilepsy, intellectual disability, and autism spectrum disorder (ASD). Pre-natal or early post-natal diagnosis of TSC is now possible in a growing number of pre-symptomatic infants. DATA SOURCES: We searched PubMed for peer-reviewed publications published between January 2010 and April 2023 with the terms "tuberous sclerosis", "autism", or "autism spectrum disorder"," animal models", "preclinical studies", "neurobiology", and "treatment". RESULTS: Prospective studies have highlighted that developmental trajectories in TSC infants who were later diagnosed with ASD already show motor, visual and social communication skills in the first year of life delays. Reliable genetic, cellular, electroencephalography and magnetic resonance imaging biomarkers can identify pre-symptomatic TSC infants at high risk for having autism and epilepsy. CONCLUSIONS: Preventing epilepsy or improving therapy for seizures associated with prompt and tailored treatment strategies for autism in a sensitive developmental time window could have the potential to mitigate autistic symptoms in infants with TSC.

Historia de la Liga Chilena contra la Epilepsia (LICHE). Conmemorando sus 70 años / History of the Chilean League against Epilepsy. 70 anniversary

La Liga Chilena contra la Epilepsia (LICHE), es una corporación sin fines de lucro, dedicada a apoyar a los pacientes con epilepsia y su entorno, educar en epilepsia, solidarizar con ellos en los aspectos psicosociales y socioeconómicos, procurándoles una mejor calidad de vida. Es parte del capítulo del International Bureau for Epilepsy (IBE). Cumple 70 años de labor y en este artículo se expone su historia y trayectoria, siendo un ejemplo mundial de manejo integral de pacientes con epilepsia y el impacto en la comunidad.

The Chilean League against Epilepsy (LICHE), a non-profit corporation, dedicated to supporting patients with epilepsy and their environment, educating in epilepsy, solidarity with them in psychosocial and socioeconomic aspects, worrying about a better quality of life. It is part of the chapter of the International Bureau for Epilepsy (IBE). It celebrates 70 years of work and this article exposes its history and trajectory, being a world example of integral management of patients with epilepsy and the impact on the community

Tuberous sclerosis complex and epilepsy in infancy: prevention and early diagnosis.

Numerous studies showed that epilepsy represents a high burden in Tuberous Sclerosis Complex (TSC), affecting 63 to 78% of the patients. Epilepsy will be refractory to medication in over 60% of cases in early presentations, and accompanied by intellectual disabilities and/or autism spectrum disorders. The emerging experimental and clinical data suggest that the molecular and cellular changes triggered by seizures, particularly during the first weeks of life, can be limited by early action. Making any effort to avoid or delay epilepsy onset is a promising pathway to improve global outcome for TSC patients, although it is not possible to tidy up the specific roles of seizures, interictal abnormalities, and cortical abnormalities upon neurodevelopment. Early diagnosis of epilepsy can be made during a "symptomatic phase," shortly after the onset of seizures (focal seizures or spasms), revealing the TSC in a young infant. As soon as the diagnosis is made, a treatment with Vigabatrin is now recommended. The diagnosis of epilepsy can also be performed during a "presymptomatic phase", with the improvement of fetal and neonatal diagnosis of TSC. Recent studies demonstrated a significant delay of more than 3 months between the detection of EEG abnormalities and the first clinical seizures, which allows to consider a preventive treatment. Beside vigabatrin, mTOR inhibitors may have a place in this early management. The last recommendations about early detection and treatment of epilepsy in TSC will be detailed in this review. © 2022 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

Management of epilepsy in brain tumor patients.

PURPOSE OF REVIEW: A concise review of recent findings in brain tumor-related epilepsy (BTRE), with focus on the effect of antitumor treatment on seizure control and the management of antiepileptic drugs (AEDs). RECENT FINDINGS: Isocitrate dehydrogenase mutation and its active metabolite d -2-hydroxyglutarate seem important contributing factors to epileptogenesis in BTRE. A beneficial effect of antitumor treatment (i.e. surgery, radiotherapy, and chemotherapy) on seizure control has mainly been demonstrated in low-grade glioma. AED prophylaxis in seizure-naïve BTRE patients is not recommended, but AED treatment should be initiated after a first seizure has occurred. Comparative efficacy randomized controlled trials (RCTs) are currently lacking, but second-generation AED levetiracetam seems the preferred choice in BTRE. Levetiracetam lacks significant drug-drug interactions, has shown favorable efficacy compared to valproic acid in BTRE, generally causes no hematological or neurocognitive functioning adverse effects, but caution should be exercised with regard to psychiatric adverse effects. Potential add-on AEDs in case of uncontrolled seizures include lacosamide, perampanel, and valproic acid. Ultimately, in the end-of-life phase when oral intake of medication is hampered, benzodiazepines via nonoral administration routes are potential alternatives. SUMMARY: Management of seizures in BTRE is complex and with currently available evidence levetiracetam seems the preferred choice. Comparative efficacy RCTs in BTRE are warranted.

The protective effect of vitamin U on pentylenetetrazole-induced brain damage in rats.

Pentylenetetrazole (PTZ) is preferred for experimental epilepsy induction. PTZ damages brain and other organs by elevating oxidative substances. Vitamin U (Vit U) is sulfur derivative substance that proved to be an excellent antioxidant. The current study was intended to determine the protective role of Vit U on PTZ-induced brain damage. Male Sprague-Dawley rats were separated into four groups. The Control group (Group I), was given saline for 7 days intraperitoneally (i.p); Vit U (Group II) was given as 50 mg/kg/day for 7 days by gavage; PTZ was injected into animals (Group III) at a single dose of 60 mg/kg, by i.p; PTZ + Vit U group (Group IV) was administered PTZ and Vit U in same dose and time as aforementioned. After the experiment was terminated, brain tissues were taken for the preparation of homogenates. In the PTZ group, glutathione and lipid peroxidation levels, alkaline phosphatase, myeloperoxidase, xanthine oxidase, acetylcholine esterase, antioxidant enzyme activities, total oxidant status, oxidative stress index, reactive oxygen species, and nitric oxide levels were increased. However, total antioxidant capacity was decreased in the PTZ group. Vit U ameliorated these effects in the PTZ-induced brain damage. Consequently, we can suggest that Vit U protected brain tissue via its antioxidant feature against PTZ kindling epilepsy.

Neurocysticercosis control for primary epilepsy prevention: a systematic review.

Neurocysticercosis (NCC) is a leading cause of preventable epilepsy in lower- and upper- middle-income countries (LMICs/UMICs). NCC is a human-to-human transmitted disease caused by ingestion of Taenia solium eggs from a Taenia carrier. T. solium infection control is the key to reduce NCC incidence. This systematic review aims to identify T. solium control programs that can provide frameworks for endemic areas to prevent NCC-related epilepsy. A systematic search was conducted in PubMed/Medline, Embase, Web of Science, and Cochrane Library databases in March 2021. After title and abstract review, full texts were screened for qualitative analysis. Additional articles were identified via citation search. Of 1322 total results, 34 unique studies were included. Six major intervention types were identified: national policy (8.8%), community sanitation improvement (8.8%), health education (8.8%), mass drug administration (29.4%), pig vaccination and treatment (32.4%), and combined human and pig treatment (11.8%). Overall, 28 (82.4%) studies reported decreased cysticercosis prevalence following the intervention. Only health education and combined human and pig treatment were effective in all selected studies. NCC causes preventable epilepsy in LMICs/UMICs and its incidence can be reduced through T. solium control. Most interventions that disrupt the T. solium transmission cycle are effective. Long-term sustained results require comprehensive programs, ongoing surveillance, and collaborative effort among multisectoral agencies.

Preventable Etiologies of Epilepsies in Saudi Arabia: A Tertiary Care Experience.

Objective: To determine the etiologies of epilepsy in a cohort of patients using the International League Against Epilepsy 2017 classification system and to determine frequencies of preventable causes and their clinical characteristics.Methods: Epileptic patients in neurology clinics at a tertiary care hospital were prospectively recruited from June 1, 2018, to November 30, 2018. Patients were divided according to their respective etiologic categories. Traumatic brain injury, stroke, hypoxic-ischemic encephalopathy, and central nervous system infections were considered preventable etiologies.Results: A total of 160 patients were included in the study. Of these patients, 61 had epilepsy of unknown etiology, while among the remaining 99 patients in whom etiology could be identified, traumatic brain injury was the most frequent overall cause with 17 (17.2%) cases. Frequencies in other etiologies were genetic (idiopathic generalized epilepsy): n = 14, stroke: n = 13, hypoxic-ischemic encephalopathy: n = 13, cerebral tumors: n = 10, mesial temporal sclerosis: n = 9, cortical malformation: n = 7, and other structural pathologies: n = 5. Other rarer causes (including central nervous system infections) had less than 5 patients each. When the preventable etiologies were grouped, they formed 46 of 99 patients (46.5%) with identifiable etiology. Seizure control was mostly satisfactory in the total sample (126/160 [78.8%]), including patients with preventable etiologies, of whom 50% were on polytherapy.Conclusions: Epilepsies with preventable etiologies are common in our clinics. Studies are needed in other centers to identify epilepsy etiologies and confirm our findings, which may help determine better strategies for primary prevention of epilepsy.

Deletion of FGF9 in GABAergic neurons causes epilepsy.

Fibroblast growth factor 9 (FGF9) has long been assumed to modulate multiple biological processes, yet very little is known about the impact of FGF9 on neurodevelopment. Herein, we found that loss of Fgf9 in olig1 progenitor cells induced epilepsy in mice, with pathological changes in the cortex. Then depleting Fgf9 in different neural populations revealed that epilepsy was associated with GABAergic neurons. Fgf9 CKO in GABAergic neuron (CKOVGAT) mice exhibited not only the most severe seizures, but also the most severe growth retardation and highest mortality. Fgf9 deletion in CKOVGAT mice caused neuronal apoptosis and decreased GABA expression, leading to a GABA/Glu imbalance and epilepsy. The adenylate cyclase/cyclic AMP and ERK signaling pathways were activated in this process. Recombinant FGF9 proteoliposomes could significantly decrease the number of seizures. Furthermore, the decrease of FGF9 was commonly observed in serum of epileptic patients, especially those with focal seizures. Thus, FGF9 plays essential roles in GABAergic neuron survival and epilepsy pathology, which could serve as a new target for the treatment of epilepsy.

Approach to Preventive Epilepsy Treatment in Tuberous Sclerosis Complex and Current Clinical Practice in 23 Countries.

Tuberous sclerosis complex (TSC) is associated with a high risk of early-onset epilepsy and developmental delay. Recently, EEG monitoring in infants with TSC and preventive antiepileptogenic treatment have been proposed to improve epilepsy and neurodevelopmental outcome. We explored how recent studies and recommendations regarding EEG monitoring and preventive epilepsy treatment have influenced the clinical practice of epilepsy management among children with TSC. METHODS: A survey on the epilepsy management approach in infants with TSC was sent by e-mail to 165 clinicians who actively participated in TSC international research conferences in years 2016 - 2019. Additionally, the e-mail addresses of TSC referral centers were collected from national TSC organizations. The survey was also distributed in the American Epilepsy Society newsletter. Only responses from centers providing neurological care for children with TSC were included in the study. RESULTS: Sixty-one responses from 23 countries were analyzed. Sixty respondents answered questions concerning infants, and 57 of 60 respondents (95%) perform at least one EEG study before epilepsy onset and 42 (70.0%) conduct regular EEG monitoring. Most of the clinicians perform video EEG (42/61, 68.8%). Overall, 51.7% of respondents, mostly from Europe, Australia, and South America, endorse preventive antiepileptic treatment in infants with TSC. Vigabatrin is a preferred drug in patients younger than two years old for both focal (61.7%) and generalized (56.7%) seizures. CONCLUSIONS: Despite the lack of published results of randomized trials, the concepts of preseizure EEG monitoring and epilepsy prevention are already being implemented in the majority of surveyed centers.

Prevention of Epilepsy in Infants with Tuberous Sclerosis Complex in the EPISTOP Trial.

OBJECTIVE: Epilepsy develops in 70 to 90% of children with tuberous sclerosis complex (TSC) and is often resistant to medication. Recently, the concept of preventive antiepileptic treatment to modify the natural history of epilepsy has been proposed. EPISTOP was a clinical trial designed to compare preventive versus conventional antiepileptic treatment in TSC infants. METHODS: In this multicenter study, 94 infants with TSC without seizure history were followed with monthly video electroencephalography (EEG), and received vigabatrin either as conventional antiepileptic treatment, started after the first electrographic or clinical seizure, or preventively when epileptiform EEG activity before seizures was detected. At 6 sites, subjects were randomly allocated to treatment in a 1:1 ratio in a randomized controlled trial (RCT). At 4 sites, treatment allocation was fixed; this was denoted an open-label trial (OLT). Subjects were followed until 2 years of age. The primary endpoint was the time to first clinical seizure. RESULTS: In 54 subjects, epileptiform EEG abnormalities were identified before seizures. Twenty-seven were included in the RCT and 27 in the OLT. The time to the first clinical seizure was significantly longer with preventive than conventional treatment [RCT: 364 days (95% confidence interval [CI] = 223-535) vs 124 days (95% CI = 33-149); OLT: 426 days (95% CI = 258-628) vs 106 days (95% CI = 11-149)]. At 24 months, our pooled analysis showed preventive treatment reduced the risk of clinical seizures (odds ratio [OR] = 0.21, p = 0.032), drug-resistant epilepsy (OR = 0.23, p = 0.022), and infantile spasms (OR = 0, p < 0.001). No adverse events related to preventive treatment were noted. INTERPRETATION: Preventive treatment with vigabatrin was safe and modified the natural history of seizures in TSC, reducing the risk and severity of epilepsy. ANN NEUROL 2021;89:304-314.

Epilepsia no período gravídico-puerperal / Epilepsy in puerperal-pregnancy period

A epilepsia, doença cerebral caracterizada pela predisposição à geração de crises epilépticas, representa a patologia neurológica grave mais frequente na gravidez. Quando não acompanhada corretamente, possui um acentuado nível de morbimortalidade materno-fetal, sendo especialmente relacionada a riscos de convulsão materna na gestação e malformações fetais. Este artigo discute o acompanhamento da gestante epiléptica, trazendo recomendações de cuidados no período pré-concepcional, manejo durante o pré-natal, condução do trabalho de parto, peculiaridades no puerpério e tratamento de crises convulsivas, quando necessário. Serão abordados tanto aspectos de tratamento farmacológico quanto de monitoramento e orientações gerais, com o objetivo de contribuir para um suporte mais abrangente e adequado a esse grupo mais vulnerável de pacientes sob o cuidado do médico ginecologista-obstetra e neurologista.(AU)

Epilepsy, which is a brain disease defined for a greater predisposition for epileptic crisis, represents the most frequent neurological pathology during pregnancy. Without proper monitoring it is related to high morbidity and mortality to both mother and baby, especially due to the risks of mother seizure during pregnancy and fetus malformation. This article discusses about health care giving and follow-up for the epileptic pregnant women, pointing recommendations for preconception care, prenatal management, labor conduct, peculiarities in puerperium and treatment of convulsive crisis when needed. There will be approached pharmacological and non-pharmacological aspects, such as follow up exams and general orientations, having as a goal to contribute to an more abrangent and proper support of this more vulnerable group of patients under the care responsibility of obstetrician-gynecologist ad neurologist doctors.(AU)

Neuropolybin: A new antiseizure peptide obtained from wasp venom.

Epilepsy accounts for one of the most serious neurological disorders, and its treatment remains a challenge, due to high cost and harmful side effects. Bioactive molecules extracted from arthropod venoms are considered a promising therapy since these compounds are known for their highly selective and potent profiles. The purpose of this study was to identify and characterize the potential antiseizure effect of the peptide Ppnp7, extracted from the venom of the social wasp Polybia paulista, and also the effect of the bioinspired peptide, named Neuropolybin, in the same parameters. Additionally, we also evaluated the electroencephalographic (EEG) profile in the PTZ-induced acute seizures in animals treated with Neuropolybin, and potential adverse effects of both peptides in general spontaneous activity (Open Field analysis). Interestingly, Ppnp7 and Neuropolybin showed a noteworthy antiseizure effect in rats and mice, respectively. Curves of protection against the maximum seizure were obtained for both peptides, and EEG records demonstrated that Neuropolybin protected 80% of animals from tonic-clonic seizures when applied with a dose of 3 nmol (an approximate Ppnp7 ED50 found in rats). Neuropolybin and Ppnp7 did not cause changes in the general spontaneous activity of the animals in any of the doses evaluated. Therefore, this study demonstrated how compounds isolated from wasps' venom may be essential resources in the search for new drugs, and can also be considered valuable therapeutic and biotechnological tools for the study and future treatment of epileptic disorders.

CRISPR/dCas9-based Scn1a gene activation in inhibitory neurons ameliorates epileptic and behavioral phenotypes of Dravet syndrome model mice.

Dravet syndrome is a severe infantile-onset epileptic encephalopathy which begins with febrile seizures and is caused by heterozygous loss-of-function mutations of the voltage-gated sodium channel gene SCN1A. We designed a CRISPR-based gene therapy for Scn1a-haplodeficient mice using multiple guide RNAs (gRNAs) in the promoter regions together with the nuclease-deficient Cas9 fused to transcription activators (dCas9-VPR) to trigger the transcription of SCN1A or Scn1a in vitro. We tested the effect of this strategy in vivo using an adeno-associated virus (AAV) mediated system targeting inhibitory neurons and investigating febrile seizures and behavioral parameters. In both the human and mouse genes multiple guide RNAs (gRNAs) in the upstream, rather than downstream, promoter region showed high and synergistic activities to increase the transcription of SCN1A or Scn1a in cultured cells. Intravenous injections of AAV particles containing the optimal combination of 4 gRNAs into transgenic mice with Scn1a-haplodeficiency and inhibitory neuron-specific expression of dCas9-VPR at four weeks of age increased Nav1.1 expression in parvalbumin-positive GABAergic neurons, ameliorated their febrile seizures and improved their behavioral impairments. Although the usage of transgenic mice and rather modest improvements in seizures and abnormal behaviors hamper direct clinical application, our results indicate that the upregulation of Scn1a expression in the inhibitory neurons can significantly improve the phenotypes, even when applied after the juvenile stages. Our findings also suggest that the decrease in Nav1.1 is directly involved in the symptoms seen in adults with Dravet syndrome and open a way to improve this condition.

Repurposed molecules for antiepileptogenesis: Missing an opportunity to prevent epilepsy?

Prevention of epilepsy is a great unmet need. Acute central nervous system (CNS) insults such as traumatic brain injury (TBI), cerebrovascular accidents (CVA), and CNS infections account for 15%-20% of all epilepsy. Following TBI and CVA, there is a latency of days to years before epilepsy develops. This allows treatment to prevent or modify postinjury epilepsy. No such treatment exists. In animal models of acquired epilepsy, a number of medications in clinical use for diverse indications have been shown to have antiepileptogenic or disease-modifying effects, including medications with excellent side effect profiles. These include atorvastatin, ceftriaxone, losartan, isoflurane, N-acetylcysteine, and the antiseizure medications levetiracetam, brivaracetam, topiramate, gabapentin, pregabalin, vigabatrin, and eslicarbazepine acetate. In addition, there are preclinical antiepileptogenic data for anakinra, rapamycin, fingolimod, and erythropoietin, although these medications have potential for more serious side effects. However, except for vigabatrin, there have been almost no translation studies to prevent or modify epilepsy using these potentially "repurposable" medications. We may be missing an opportunity to develop preventive treatment for epilepsy by not evaluating these medications clinically. One reason for the lack of translation studies is that the preclinical data for most of these medications are disparate in terms of types of injury, models within different injury type, dosing, injury-treatment initiation latencies, treatment duration, and epilepsy outcome evaluation mode and duration. This makes it difficult to compare the relative strength of antiepileptogenic evidence across the molecules, and difficult to determine which drug(s) would be the best to evaluate clinically. Furthermore, most preclinical antiepileptogenic studies lack information needed for translation, such as dose-blood level relationship, brain target engagement, and dose-response, and many use treatment parameters that cannot be applied clinically, for example, treatment initiation before or at the time of injury and dosing higher than tolerated human equivalent dosing. Here, we review animal and human antiepileptogenic evidence for these medications. We highlight the gaps in our knowledge for each molecule that need to be filled in order to consider clinical translation, and we suggest a platform of preclinical antiepileptogenesis evaluation of potentially repurposable molecules or their combinations going forward.

Role of Adenosine Kinase Inhibitor in Adenosine Augmentation Therapy for Epilepsy: A Potential Novel Drug for Epilepsy.

Epilepsy, an ancient disease, is defined as an enduring predisposition to generate epileptic seizures and by the neurobiological, cognitive, psychological, and social consequences of this condition. Antiepileptic drugs (AEDs) are currently used as first-line treatment for patients with epilepsy; however, around 36% of patients are diagnosed with refractory epilepsy, which means two or more AEDs have been considered as failed after sufficiently correct usage. Unfortunately, it is unlikely that the improvement of the efficacy of AEDs will be easily achieved, especially since no AEDs show efficacy in ceasing epileptogenesis. Consequently, several endogenous anticonvulsants attract investigators and epileptologists, such as galanin, cannabis, and adenosine. Astrogliosis is a neuropathological hallmark of epilepsy, whatever the etiology is, and astrogliosis is frequently associated with overexpression of adenosine kinase, which means downregulation of synaptic levels of adenosine. Consequently, adenosine is negatively regulated by adenosine kinase through the astrocyte-based cycle. On the other hand, focal adenosine augmentation therapy, using adenosine kinase inhibitor, has been proved to be effective for reducing seizures in both animal models and in vitro human brain tissue resected from a variety of etiology of refractory epilepsy patients. In addition to reducing seizures, adenosine augmentation therapy can also palliate co-morbidities, like sleep, cognition, or depression. Of importance, transgenic mice with reduced ADK were resistant to epileptogenesis induced by acute brain injury. In terms of translation, based on findings of adenosinerelated epileptogenic mechanisms, the application into clinical practice seems to be feasible by molecular strategies that have been already experimentally implemented, including gene and RNA interference. In the present review, we will focus on the evidence of ADK dysfunction in the epileptic brain from human beings and animals, and review the role of ADK inhibitor in adenosine augmentation therapy and the underlying mechanism of prevention of epileptogenesis.

Preventive Antiepileptic Treatment in Tuberous Sclerosis Complex: A Long-Term, Prospective Trial.

BACKGROUD: Drug-resistant epilepsy is the main risk factor for future intellectual disability in patients with tuberous sclerosis complex. Clinical epileptic seizures are often preceded by electroencephalographic changes, which provide an opportunity for preventive treatment. We evaluated the neuropsychologic and epilepsy outcomes at school age in children with tuberous sclerosis complex who received preventive antiepileptic treatment in infancy. METHODS: We performed a prospective, nonrandomized clinical trial with 14 infants diagnosed with tuberous sclerosis complex in whom serial electroencephalographic recordings were performed and preventive treatment with vigabatrin initiated when active epileptic discharges were detected. An age-matched control group consisted of 31 infants with tuberous sclerosis complex in whom treatment with vigabatrin was given only after onset of clinical seizures. Results of clinical assessment of epilepsy and cognitive outcomes were analyzed. RESULTS: All patients in the preventive group (n = 14) and 25 of 31 patients in the standard treatment group were followed through minimum age five years, median 8.8 and 8.0 years in the preventive and standard groups, respectively. The median intelligence quotient was 94 for the preventive group when compared with 46 for the standard group (P < 0.03). Seven of 14 patients (50%) in the preventive group never had a clinical seizure when compared with one of 25 patients (5%) in the standard treatment group (P = 0.001). CONCLUSIONS: This study provides evidence that preventive antiepileptic treatment in infants with tuberous sclerosis complex improves long-term epilepsy control and cognitive outcome at school age.

Targeting oxidative stress improves disease outcomes in a rat model of acquired epilepsy.

Epilepsy therapy is based on antiseizure drugs that treat the symptom, seizures, rather than the disease and are ineffective in up to 30% of patients. There are no treatments for modifying the disease-preventing seizure onset, reducing severity or improving prognosis. Among the potential molecular targets for attaining these unmet therapeutic needs, we focused on oxidative stress since it is a pathophysiological process commonly occurring in experimental epileptogenesis and observed in human epilepsy. Using a rat model of acquired epilepsy induced by electrical status epilepticus, we show that oxidative stress occurs in both neurons and astrocytes during epileptogenesis, as assessed by measuring biochemical and histological markers. This evidence was validated in the hippocampus of humans who died following status epilepticus. Oxidative stress was reduced in animals undergoing epileptogenesis by a transient treatment with N-acetylcysteine and sulforaphane, which act to increase glutathione levels through complementary mechanisms. These antioxidant drugs are already used in humans for other therapeutic indications. This drug combination transiently administered for 2 weeks during epileptogenesis inhibited oxidative stress more efficiently than either drug alone. The drug combination significantly delayed the onset of epilepsy, blocked disease progression between 2 and 5 months post-status epilepticus and drastically reduced the frequency of spontaneous seizures measured at 5 months without modifying the average seizure duration or the incidence of epilepsy in animals. Treatment also decreased hippocampal neuron loss and rescued cognitive deficits. Oxidative stress during epileptogenesis was associated with de novo brain and blood generation of high mobility group box 1 (HMGB1), a neuroinflammatory molecule implicated in seizure mechanisms. Drug-induced reduction of oxidative stress prevented HMGB1 generation, thus highlighting a potential novel mechanism contributing to therapeutic effects. Our data show that targeting oxidative stress with clinically used drugs for a limited time window starting early after injury significantly improves long-term disease outcomes. This intervention may be considered for patients exposed to potential epileptogenic insults.

Neuroprotective strategies following perinatal hypoxia-ischemia: Taking aim at NOS.

Perinatal asphyxia is characterized by oxygen deprivation and lack of perfusion in the perinatal period, leading to hypoxic-ischemic encephalopathy and sequelae such as cerebral palsy, mental retardation, cerebral visual impairment, epilepsy and learning disabilities. On cellular level PA is associated with a decrease in oxygen and glucose leading to ATP depletion and a compromised mitochondrial function. Upon reoxygenation and reperfusion, the renewed availability of oxygen gives rise to not only restoration of cell function, but also to the activation of multiple detrimental biochemical pathways, leading to secondary energy failure and ultimately, cell death. The formation of reactive oxygen species, nitric oxide and peroxynitrite plays a central role in the development of subsequent neurological damage. In this review we give insight into the pathophysiology of perinatal asphyxia, discuss its clinical relevance and summarize current neuroprotective strategies related to therapeutic hypothermia, ischemic postconditioning and pharmacological interventions. The review will also focus on the possible neuroprotective actions and molecular mechanisms of the selective neuronal and inducible nitric oxide synthase inhibitor 2-iminobiotin that may represent a novel therapeutic agent for the treatment of hypoxic-ischemic encephalopathy, both in combination with therapeutic hypothermia in middle- and high-income countries, as well as stand-alone treatment in low-income countries.

Antiepileptic drugs as prophylaxis for de novo brain tumour-related epilepsy after craniotomy: a systematic review and meta-analysis of harm and benefits.

OBJECTIVES: To investigate potential harm and benefits of antiepileptic drugs (AED) given prophylactically to prevent de novo brain tumour-related epilepsy after craniotomy. METHODS: Randomised controlled trials (RCT) and retrospective studies published before 27 November 2018 were included. The Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines were applied. Eligible patients were diagnosed with a brain tumour, were seizure naïve and underwent craniotomy. The random effects model was used for quantitative synthesis. The analysis was adjusted for the confounding effect of including patients with a history of seizure prior to study inclusion. RESULTS: A total of 454 patients received prophylactic AED whereas 333 were allocated to placebo or no treatment. Two RCTs and four retrospective studies were identified. The OR was 1.09 (95% CI 0.7 to 1.8, p=0.7, I2=5.6%, χ2 p=0.5), indicating study consistency and no significant differences. An additional two RCTs and one retrospective study combined craniotomy and diagnostic biopsy, and were subgroup analysed-which supported no difference in odds for epilepsy. CONCLUSIONS: A prophylactic effect of AED could not be demonstrated (nor rejected statistically). Levetiracetam was associated with less adverse effects than phenytoin. The potential harm of AED was not balanced by the potential prophylactic benefit. This study suggests that prophylactic AED should not be administered to prevent brain tumour-related epilepsy after craniotomy.

Echinacoside, an Active Constituent of Cistanche Herba, Exerts a Neuroprotective Effect in a Kainic Acid Rat Model by Inhibiting Inflammatory Processes and Activating the Akt/GSK3ß Pathway.

Echinacoside is a major compound of Cistanche Herb and has glutamate release-inhibiting activity in the brain. Given the involvement of excitotoxicity caused by massive glutamate in the pathophysiology of epilepsy, we explored the antiepileptic effect of echinacoside on kainic acid-induced seizures in rats. The rats were intraperitoneally administrated echinacoside for 30 min prior to intraperitoneal injection with kainic acid. The results showed that kainic acid induced seizure-like behavioral patterns, increased glutamate concentrations, caused neuronal loss and microglial activation, and stimulated proinflammatory cytokine gene expression in the hippocampus. These kainic acid-induced alternations were found to be attenuated by echinacoside pretreatment. Furthermore, decreased Akt and glycogen synthase kinase 3ß (GSK3ß) phosphorylation as well as Bcl-2 expression in the hippocampus was reversed by the echinacoside pretreatment. These results demonstrate that echinacoside exert its antiepileptic and neuroprotective actions in a kainic acid rat model through suppressing inflammatory response and activating the Akt/GSK3ß signaling. Therefore, the present study suggests that echinacoside is the potentially useful in the prevention of epilepsy.