Altered cytokine levels in cerebrospinal fluid following ketogenic diet of children with refractory epilepsy.

Ketogenic diet is an effective treatment which has the potential to achieve a significant seizure reduction in drug-resistant epilepsy. The mechanism behind this effect is unclear, but one hypothesis is that the mechanism is anti-inflammatory. In this prospective study on pediatric patients we compared levels of cytokines and chemokines in the cerebrospinal fluid before and after three months on treatment to evaluate a possible anti-inflammatory effect. We analyzed 34 cytokines and chemokines in the cerebrospinal fluid of pediatric patients (n = 21) with refractory epilepsy by a multiplex assay. Beta-hydroxybutyric acid was measured in blood and cerebrospinal fluid. Seizure frequency in relation to diet treatment was assessed. For 9 different cytokines (CCL 7, CCL 21, CCL 22, CCL 25, CCL 27, IL-2, IL-10, CX3CL1 and MIF), a significant decrease ranging from 7 to 27% was seen after three months as compared to levels before the diet. In contrast, no cytokine displayed a significant increase during diet. A seizure reduction ≥ 50 % was seen in 15/21 patients (71 %) but no significant differences in cytokine decreases were found between responders and non-responders during treatment. A non-significant trend towards higher initial pre-treatment levels of cytokines was seen in responders, which were reduced following treatment. The levels of betahydroxybutyric acid were not related to seizure response. We conclude that while it is not possible to state a primary anti-inflammatory effect by dietary treatment from these data, an unequivocal immunological effect is seen and may be a part of the mechanism of ketogenic dietary treatment.

Differential ketogenic diet-induced shift in CSF lipid/carbohydrate metabolome of pediatric epilepsy patients with optimal vs. no anticonvulsant response: a pilot study.

BACKGROUND: The low carbohydrate, high fat ketogenic diet can be an effective anticonvulsant treatment in some pediatric patients with pharmacoresistant epilepsy. Its mechanism(s) of action, however, remain uncertain. Direct sampling of cerebrospinal fluid before and during metabolic therapy may reveal key changes associated with differential clinical outcomes. We characterized the relationship between seizure responsiveness and changes in lipid and carbohydrate metabolites. METHODS: We performed metabolomic analysis of cerebrospinal fluid samples taken before and during ketogenic diet treatment in patients with optimal response (100% seizure remission) and patients with no response (no seizure improvement) to search for differential diet effects in hallmark metabolic compounds in these two groups. Optimal responders and non-responders were similar in age range and included males and females. Seizure types and the etiologies or syndromes of epilepsy varied but did not appear to differ systematically between responders and non-responders. RESULTS: Analysis showed a strong effect of ketogenic diet treatment on the cerebrospinal fluid metabolome. Longitudinal and between-subjects analyses revealed that many lipids and carbohydrates were changed significantly by ketogenic diet, with changes typically being of larger magnitude in responders. Notably, responders had more robust changes in glucose and the ketone bodies ß-hydroxybutyrate and acetoacetate than non-responders; conversely, non-responders had significant increases in fructose and sorbose, which did not occur in responders. CONCLUSIONS: The data suggest that a differential and stronger metabolic response to the ketogenic diet may predict a better anticonvulsant response, and such variability is likely due to inherent biological factors of individual patients. Strategies to boost the metabolic response may be beneficial.

Heterozygous variants in DCC: Beyond congenital mirror movements.

OBJECTIVE: To perform a comprehensive characterization of a cohort of patients with congenital mirror movements (CMMs) in Sweden. METHODS: Clinical examination with the Woods and Teuber scale for mirror movements (MMs), neuroimaging, navigated transcranial magnetic stimulation (nTMS), and massive parallel sequencing (MPS) were applied. RESULTS: The cohort is ethnically diverse and includes a total of 7 patients distributed in 2 families and 2 sporadic cases. The degree of MMs was variable in this cohort. MPS revealed 2 novel heterozygous frameshift variants in DCC netrin 1 receptor (DCC). Two siblings harboring the pathogenic variant in c.1466_1476del display a complex syndrome featuring MMs and in 1 case receptive-expressive language disorder, chorea, epilepsy, and agenesis of the corpus callosum. The second DCC variant, c.1729delG, was associated with a typical benign CMM phenotype. No variants in DCC, NTN1, RAD51, or DNAL4 were found for the 2 sporadic CMM cases. However, one of these sporadic cases had concomitant high-risk myelodysplastic syndrome and a homozygous variant in ERCC excision repair like 2 (ERCC6L2). Reorganized corticospinal projection patterns to upper extremities were demonstrated with nTMS. CONCLUSIONS: The presence of chorea expands the clinical spectrum of syndromes associated with variants in DCC. Biallelic pathogenic variants in ERCC6L2 cause bone marrow failure, but a potential association with CMM remains to be studied in larger cohorts.

The ketogenic diet influences taxonomic and functional composition of the gut microbiota in children with severe epilepsy.

The gut microbiota has been linked to various neurological disorders via the gut-brain axis. Diet influences the composition of the gut microbiota. The ketogenic diet (KD) is a high-fat, adequate-protein, low-carbohydrate diet established for treatment of therapy-resistant epilepsy in children. Its efficacy in reducing seizures has been confirmed, but the mechanisms remain elusive. The diet has also shown positive effects in a wide range of other diseases, including Alzheimer's, depression, autism, cancer, and type 2 diabetes. We collected fecal samples from 12 children with therapy-resistant epilepsy before starting KD and after 3 months on the diet. Parents did not start KD and served as diet controls. Applying shotgun metagenomic DNA sequencing, both taxonomic and functional profiles were established. Here we report that alpha diversity is not changed significantly during the diet, but differences in both taxonomic and functional composition are detected. Relative abundance of bifidobacteria as well as E. rectale and Dialister is significantly diminished during the intervention. An increase in relative abundance of E. coli is observed on KD. Functional analysis revealed changes in 29 SEED subsystems including the reduction of seven pathways involved in carbohydrate metabolism. Decomposition of these shifts indicates that bifidobacteria and Escherichia are important contributors to the observed functional shifts. As relative abundance of health-promoting, fiber-consuming bacteria becomes less abundant during KD, we raise concern about the effects of the diet on the gut microbiota and overall health. Further studies need to investigate whether these changes are necessary for the therapeutic effect of KD.

Ketogenic diet in pyruvate dehydrogenase complex deficiency: short- and long-term outcomes.

OBJECTIVES: Our aime was to study the short- and long-term effects of ketogenic diet on the disease course and disease-related outcomes in patients with pyruvate dehydrogenase complex deficiency, the metabolic factors implicated in treatment outcomes, and potential safety and compliance issues. METHODS: Pediatric patients diagnosed with pyruvate dehydrogenase complex deficiency in Sweden and treated with ketogenic diet were evaluated. Study assessments at specific time points included developmental and neurocognitive testing, patient log books, and investigator and parental questionnaires. A systematic literature review was also performed. RESULTS: Nineteen patients were assessed, the majority having prenatal disease onset. Patients were treated with ketogenic diet for a median of 2.9 years. All patients alive at the time of data registration at a median age of 6 years. The treatment had a positive effect mainly in the areas of epilepsy, ataxia, sleep disturbance, speech/language development, social functioning, and frequency of hospitalizations. It was also safe-except in one patient who discontinued because of acute pancreatitis. The median plasma concentration of ketone bodies (3-hydroxybutyric acid) was 3.3 mmol/l. Poor dietary compliance was associated with relapsing ataxia and stagnation of motor and neurocognitive development. Results of neurocognitive testing are reported for 12 of 19 patients. CONCLUSION: Ketogenic diet was an effective and safe treatment for the majority of patients. Treatment effect was mainly determined by disease phenotype and attainment and maintenance of ketosis.

Acute inflammatory demyelinating polyradiculoneuropathy in a newborn infant.

BACKGROUND: Acute inflammatory demyelinating polyneuropathy (AIDP), also known as Guillain-Barré syndrome, is an immune-mediated polyneuropathy usually triggered by infections or vaccinations. In childhood AIDP is commonly described after the first year of life. Here, we present a case of a newborn infant with AIDP manifestation directly after delivery. CASE STUDY: A newborn girl with a healthy mother, without known exposure to immunomodulating factors, was admitted to the neuropediatric department due to ascending hypotonia, weakness, pain and areflexia in the lower extremities. The clinical presentation, laboratory and neurophysiological studies supported the diagnosis of AIDP. The infant showed first signs of clinical improvement following administration of intravenous immunoglobulin and her recovery was complete at one year. CONCLUSION: AIDP should be considered as a differential diagnosis in ascending hypotonia also in the neonatal period.