Neuronal antibody prevalence in children with seizures under 3 years: A prospective national cohort.

OBJECTIVE: To report the prevalence of anti-neuronal antibodies in a prospective whole-nation cohort of children presenting with seizures before their third birthday. METHODS: This was a prospective population-based national cohort study involving all children presenting with new-onset epilepsy or complex febrile seizures before their third birthday over a 3-year period. Patients with previously identified structural, metabolic, or infectious cause for seizures were excluded. Serum samples were obtained at first presentation and tested for 7 neuronal antibodies using live cell-based assays. Clinical data were collected with structured proformas at recruitment and 24 months after presentation. In addition, patients with seizures and clinically suspected autoimmune encephalitis were independently identified by a review of the case records of all children <3 years of age in Scotland who had undergone EEG. RESULTS: Two hundred ninety-eight patients were identified and recruited and underwent autoantibody testing. Antibody positivity was identified in 18 of 298 (6.0%). The antibodies identified were GABA receptor B (n = 8, 2.7%), contactin-associated protein 2 (n = 4, 1.3%), glycine receptor (n = 3, 1.0%), leucine-rich glioma inactivated 1 (n = 2, 0.7%), NMDA receptor (n = 1, 0.3%), and GABA receptor A (n = 1, 0.3%). None of these patients had a clinical picture of autoimmune encephalitis. Seizure classification and clinical phenotype did not correlate with antibody positivity. CONCLUSIONS: Autoimmune encephalitis is very rare in early childhood. However serum neuronal antibodies are identified in 6.4% of children presenting with seizures at <3 years of age. Antibody testing should not be a routine clinical test in early childhood-onset epilepsy because, in the absence of other features of autoimmune encephalitis, antibody positivity is of doubtful clinical significance. Antibody testing should be reserved for patients with additional features of encephalitis.

Developmental outcome in benign myoclonic epilepsy in infancy and reflex myoclonic epilepsy in infancy: a literature review and six new cases.

Benign myoclonic epilepsy in infancy is a rare syndrome with just over 100 cases reported since the first syndromic description by Dravet and Bureau [Dravet, C., Bureau, M., 1981. The benign myoclonic epilepsy of infancy. Rev. Elecroencephalogr. Neurophysiol. Clin. 11, 438-444]. This includes 23 infants with reflex myoclonic epilepsy whose inclusion in the wider syndrome remains debatable. We have reviewed the literature and present data from six further cases. Prognosis in respect of long term seizure freedom is good with sodium valproate being the most effective medication. However, the cognitive outcome is much less certain with cognitive problems present in one-third of children who have long term follow up. The cognitive outcome in reflex myoclonic epilepsy of infancy is normal in all reported cases. The term benign may be appropriately used to describe the myoclonic seizures but must be used cautiously when counselling families about cognitive outcome. The clinical heterogeneity within this syndrome suggests that there may be a variety of genetic mechanisms that underlie the presentation. Clinicians should distinguish the syndrome of reflex myoclonic epilepsy in infancy from benign myoclonic epilepsy of infancy and all patients should continue developmental follow up for several years after diagnosis.

Electro-clinical phenotypes of chromosome disorders associated with epilepsy in the absence of dysmorphism.

Chromosome imbalances are associated with epilepsy but electro-clinical phenotypes are lacking for all but the best-known syndromes. Scanty information is contained in older case reports published in genetics journals that describe children with severe patterns of malformation and dysmorphism. From a larger series of children with chromosome abnormalities and epilepsy, we identified 10 patients with associated dysmorphism without malformation. Electro-clinical features are described for each patient. We found that these patients are at greater risk of delayed diagnosis, particularly when there are no learning difficulties at the onset of epilepsy, as in ring chromosome 20 syndrome. Chromosome studies should be ordered on all children with learning difficulties and epilepsy, and on children with atypical non-lesional epilepsy, even in the absence of learning difficulties or dysmorphism.

Abnormalities in cardiac and respiratory function observed during seizures in childhood.

The aim of this study was to observe any changes in cardiac and respiratory function that occur during seizures. Thirty-seven children (20 males, 17 females; median age 7y 6mo, range 1y 6mo to 15y 6mo) were studied. We recorded electroencephalograms, respiratory rate, heart rate, electrocardiograms, blood pressure, oxygen saturation, heart rate variability (time domain analysis), and cardiac vagal tone. A respiratory pause was defined as an interruption in respiration lasting more than 3s but less than 15s. Apnoea was defined as absence of respiration for more than 15s. Tachypnoea was defined as a 10% increase in respiratory rate from the pre-ictal baseline. Bradypnoea was defined as a 10% decrease in respiratory rate from the pre-ictal baseline. Significant hypoxia was defined as a saturation of less than 85%. A significant change in heart rate was taken as a 10% increase or decrease below the baseline rate. Data were obtained from 101 seizures: 40 focal seizures, 21 generalized seizures, and 40 absences. Focal seizures were frequently associated with significant respiratory abnormalities, tachypnoea in 56%, apnoea in 30%, frequent respiratory pauses in 70%, and significant hypoxaemia in 40%. The changes seen in respiratory rate were statistically significant. Changes in cardiac parameters, an increase or decrease in heart rate, were observed in only 26% of focal seizures and 48% of generalized seizures. We conclude that seizure activity can disrupt normal physiological regulation and control of respiratory and cardiac activity.