Hoon Chul Kang

Is the ketogenic diet effective in specific epilepsy syndromes

Is the ketogenic diet (KD) more effective in certain epilepsy syndromes? The KD has been shown to be effective in treating multiple seizure types and epilepsy syndromes. We review the effectiveness of the KD in Dravet syndrome, epilepsy with myoclonic-atonic seizures, mitochondrial disease, tuberous sclerosis, late infantile and juvenile neuronal ceroid lipofuscinosis, and febrile infection-related epilepsy syndrome. In certain epilepsy syndromes, like epilepsy with myoclonic-atonic seizures, the diet should be considered early in the course of treatment.

Highly pure and expandable PSA-NCAM-positive neural precursors from human ESC and iPSC-derived neural rosettes.

Homogeneous culture of neural precursor cells (NPCs) derived from human pluripotent stem cells (hPSCs) would provide a powerful tool for biomedical applications. However, previous efforts to expand mechanically dissected neural rosettes for cultivation of NPCs remain concerns regarding non-neural cell contamination. In addition, several attempts to purify NPCs using cell surface markers have not demonstrated the expansion capability of the sorted cells. In the present study, we show that polysialic acid-neural cell adhesion molecule (PSA-NCAM) is detected in neural rosette cells derived from hPSCs, and employ PSA-NCAM as a marker for purifying expandable primitive NPCs from the neural rosettes. PSA-NCAM-positive NPCs (termed hNPCPSA-NCAM+) were isolated from the heterogeneous cell population of mechanically harvested neural rosettes using magnetic-based cell sorting. The hNPCPSA-NCAM+ extensively expressed neural markers such as Sox1, Sox2, Nestin, and Musashi-1 (80∼98% of the total cells) and were propagated for multiple passages while retaining their primitive characteristics in our culture condition. Interestingly, PSA-NCAM-negative cells largely exhibited characteristics of neural crest cells. The hNPCPSA-NCAM+ showed multipotency and responsiveness to instructive cues towards region-specific neuronal subtypes in vitro. When transplanted into the rat striatum, hNPCPSA-NCAM+ differentiated into neurons, astrocytes, and oligodendrocytes without particular signs of tumorigenesis. Furthermore, Ki67-positive proliferating cells and non-neural lineage cells were rarely detected in the grafts of hNPCPSA-NCAM+ compared to those of neural rosette cells. Our results suggest that PSA-NCAM-mediated cell isolation provides a highly expandable population of pure primitive NPCs from hPSCs that will lend themselves as a promising strategy for drug screening and cell therapy for neurodegenerative disorders.

Will seizure control improve by switching from the modified Atkins diet to the traditional ketogenic diet

It has been reported that children can maintain seizure control when the ketogenic diet (KD) is transitioned to the less‐restrictive modified Atkins diet (MAD). What is unknown, however, is the likelihood of additional seizure control from a switch from the MAD to the KD. Retrospective information was obtained from 27 patients who made this dietary change from four different institutions. Ten (37%) patients had ≥10% additional seizure reduction with the KD over the MAD, of which five became seizure‐free. The five children who did not improve on the MAD failed to improve when transitioned to the KD. A higher incidence of improvement with the KD occurred for those with myoclonic–astatic epilepsy (70% vs. 12% for all other etiologies, p = 0.004), including all who became seizure‐free. These results suggest that the KD probably represents a “higher dose” of dietary therapy than the MAD, which may particularly benefit those with myoclonic–astatic epilepsy.

An AKT3-FOXG1-reelin network underlies defective migration in human focal malformations of cortical development

Focal malformations of cortical development (FMCDs) account for the majority of drug-resistant pediatric epilepsy. Postzygotic somatic mutations activating the phosphatidylinositol-4,5-bisphosphate-3-kinase (PI3K)–protein kinase B (AKT)–mammalian target of rapamycin (mTOR) pathway are found in a wide range of brain diseases, including FMCDs. It remains unclear how a mutation in a small fraction of cells disrupts the architecture of the entire hemisphere. Within human FMCD-affected brain, we found that cells showing activation of the PI3K-AKT-mTOR pathway were enriched for the AKT3E17K mutation. Introducing the FMCD-causing mutation into mouse brain resulted in electrographic seizures and impaired hemispheric architecture. Mutation-expressing neural progenitors showed misexpression of reelin, which led to a non–cell autonomous migration defect in neighboring cells, due at least in part to derepression of reelin transcription in a manner dependent on the forkhead box (FOX) transcription factor FOXG1. Treatments aimed at either blocking downstream AKT signaling or inactivating reelin restored migration. These findings suggest a central AKT-FOXG1-reelin signaling pathway in FMCD and support pathway inhibitors as potential treatments or therapies for some forms of focal epilepsy.

Mitochondrial disease and epilepsy.

Mitochondrial diseases are a group of diseases caused by dysfunctional mitochondria, organelles that generate energy for the cell. Mitochondrial diseases are often caused by mutations, acquired, or inherited in the mitochondrial DNA or nuclear genes that code for respiratory chain complexes in the mitochondrion. Mitochondrial diseases involve multiple organs and show heterogeneous and unpredictable progression. The most common clinical presentation of mitochondrial diseases is encephalomyopathy, and epileptic seizures can frequently occur as a presenting sign of mitochondrial encephalopathy. While whether mitochondrial dysfunction or epilepsy is the cause or consequence is still debatable, they may be interrelated to create a vicious cycle. Epileptic phenotypes vary in different mitochondrial diseases. At present, there are no curative treatments for mitochondrial diseases, and the efficacy of many anticonvulsants, vitamins, nutritional supplements, and the ketogenic diet remain to be proven. Understanding the pathophysiology of mitochondrial diseases may further facilitate effective diagnostic and therapeutic approaches to these diseases.

Rufinamide as an adjuvant treatment in children with Lennox-Gastaut syndrome

PURPOSE To evaluate the efficacy of rufinamide as an add-on treatment in children and adolescents with Lennox-Gastaut syndrome (LGS). METHODS The study was an open-label, observational clinical trial of rufinamide as an add-on treatment in intractable LGS patients. This intent-to-treat trial included 4 weeks of scheduled titrated doses and a 12-week maintenance phase with a target dose of 20-40 mg/kg rufinamide, adjusted according to its effectiveness and tolerability after a baseline period of 4 weeks. The primary outcome was measured by the seizure-reduction rate according to individual seizure type over the 12-week maintenance period. RESULTS One hundred and twenty-eight patients with LGS who were determined to be unresponsive to one or more antiepileptic drugs or dietary therapy were enrolled. Of the 128 patients enrolled, 112 (87.5%) completed the study. After add-on rufinamide treatment, 46 patients (35.9%) achieved a more than 50% reduction in seizure frequency and 10 (7.8%) patients became seizure-free. When we identified those who responded with an at least 50% reduction in seizure frequency, 39.4% of the responders reported reductions in convulsive seizures, 36.4% in drop attacks, 33.3% in myoclonic seizures, and 20.0% in epileptic spasms. Overall, 32.8% of patients reported adverse effects, which were mostly mild and transient in nature. The most common adverse effects were fatigue (15 patients, 11.7%) and poor appetite (9 patients, 7.0%). Twenty-one (16.4%) patients experienced an increased seizure frequency. CONCLUSIONS Rufinamide appears to be a safe and effective adjuvant treatment for many cases of intractable LGS.

Somatic Mutations in TSC1 and TSC2 Cause Focal Cortical Dysplasia

Focal cortical dysplasia (FCD) is a major cause of the sporadic form of intractable focal epilepsies that require surgical treatment. It has recently been reported that brain somatic mutations in MTOR account for 15%-25% of FCD type II (FCDII), characterized by cortical dyslamination and dysmorphic neurons. However, the genetic etiologies of FCDII-affected individuals who lack the MTOR mutation remain unclear. Here, we performed deep hybrid capture and amplicon sequencing (read depth of 100×-20,012×) of five important mTOR pathway genes-PIK3CA, PIK3R2, AKT3, TSC1, and TSC2-by using paired brain and saliva samples from 40 FCDII individuals negative for MTOR mutations. We found that 5 of 40 individuals (12.5%) had brain somatic mutations in TSC1 (c.64C>T [p.Arg22Trp] and c.610C>T [p.Arg204Cys]) and TSC2 (c.4639G>A [p.Val1547Ile]), and these results were reproducible on two different sequencing platforms. All identified mutations induced hyperactivation of the mTOR pathway by disrupting the formation or function of the TSC1-TSC2 complex. Furthermore, in utero CRISPR-Cas9-mediated genome editing of Tsc1 or Tsc2 induced the development of spontaneous behavioral seizures, as well as cytomegalic neurons and cortical dyslamination. These results show that brain somatic mutations in TSC1 and TSC2 cause FCD and that in utero application of the CRISPR-Cas9 system is useful for generating neurodevelopmental disease models of somatic mutations in the brain.

Efficacy and tolerability of adjunctive therapy with zonisamide in childhood intractable epilepsy

PURPOSE This study investigated the efficacy and safety of zonisamide (ZNS) adjunctive therapy in children with intractable epilepsy to existing antiepileptic drugs (AEDs). METHODS A clinical retrospective study was performed from 2003 to 2005 at two tertiary epilepsy centers. We reviewed the data from 163 children (107 boys and 56 girls) who experienced more than four seizures per month, whose seizures were intractable to an initial 2 or more AEDs, and could be followed up for at least 6months after ZNS adjunctive therapy initiation. Efficacy was estimated by seizure reduction rate according to seizure types including infantile spasms, and adverse events were also measured. RESULTS Seventy-nine patients (48.5%) out of 163 patients experienced a reduction in seizure frequency of more than 50%, and 25 patients (15.3%) became seizure-free. The rate of seizure reduction greater than 50% in children with partial seizures was 40.5% (17/42) and in children with generalized seizures was 51.2% (62/121). Of 36 patients who manifested mainly myoclonic seizures, 20 patients (55.6%) showed a seizure reduction of more than 50% and 9 patients (25.0%) were seizure-free. Mean maintenance dosage of drug was 8.2mg/kg/day (range 5.0-16.0mg/kg/day). Adverse events were documented in 15 children (9.2%), including somnolence (8 patients), fatigue, and anorexia, but all were transient and successfully managed. One patient discontinued ZNS therapy due to acute pancreatitis. CONCLUSION ZNS adjunctive therapy is an effective and safe treatment in various childhood intractable epilepsy.

Outcomes of epilepsy surgery in childhood-onset epileptic encephalopathy

PURPOSE to evaluate the outcomes and role of epilepsy surgery in children with intractable epileptic encephalopathy (EE). METHODS ninety-five children (64 boys, 31 girls) with intractable EE were treated by epilepsy surgery at Severance Childrens Hospital from 2003 to 2008. Surgical treatments included lobar resection, hemispherotomy and corpus callosotomy (CC). Seventy-six children were Lennox-Gastaut syndrome (LGS), and 19 had West syndrome. RESULTS of the 76 patients with LGS, CC was performed in 37 patients (48.7%), lobar resection in 29 (38.2%) and hemispherotomy in 10 (13.2%). Of the 19 patients with West syndrome, respective surgery was performed in 15 patients (78.9%) and CC in 4 (21.1%). Of the patients receiving respective surgery, Engels class I outcomes were achieved for 24 of 39 (61.5%) of LGS patients, and for 9 of 15 (60.0%) of West syndrome. Malformations of cortical development were commonly observed, appearing in 73.5% (36/49). In neuropsychiatric tests, 19 of 27 with LGS demonstrated improvement in postoperative cognitive function. More significant intellectual improvement correlated well with shorter epilepsy duration, good seizure outcomes, and decreased number of antiepileptic drugs. CONCLUSIONS epilepsy surgery should be considered in treating childhood intractable EE with expectation of improvement of both seizure and cognitive outcomes, even in cases of LGS.

Clinical characteristics of patients with non-specific and non-categorized mitochondrial diseases

Aim:  Mitochondrial disease is a heterogeneous disorder entity induced by defects in mitochondrial respiratory chain complex (MRC). A significant portion of patients with MRC defect will not conform to a specific, known syndrome. We have analysed the clinical features of 108 Korean paediatric patients with non‐specific and non‐categorized mitochondrial disease.