Roberta Epifanio

Cryptogenic epileptic syndromes related to SCN1A: Twelve novel mutations identified

BACKGROUND Sodium channel alpha 1 subunit gene, SCN1A, is the gene encoding the neuronal voltage-gated sodium channel alpha 1 subunit (Na(v)1.1) and is mutated in different forms of epilepsy. Mutations in this gene were observed in more than 70% of patients with severe myoclonic epilepsy of infancy (SMEI) and were also found in different types of infantile epileptic encephalopathy. OBJECTIVE To search for disease-causing mutations in SCN1A in patients with cryptogenic epileptic syndromes (ie, syndromes with an unknown cause). DESIGN Clinical characterization and molecular genetic analysis of a cohort of patients. SETTING University hospitals, rehabilitation centers, and molecular biology laboratories. PATIENTS Sixty unrelated patients with cryptogenic epileptic syndromes. MAIN OUTCOME MEASURES Samples of DNA were analyzed for mutations and for large heterozygous deletions encompassing the SCN1A gene. A search for microdeletions in the SCN1A gene was also performed in the subset of patients with SMEI/SMEI-borderland who had negative results at the point mutation screening. RESULTS No large deletions at the SCN1A locus were found in any of the patients analyzed. In contrast, 13 different point mutations were identified in 12 patients: 10 with SMEI, 1 with generalized epilepsy with febrile seizures plus, and 1 with cryptogenic focal epilepsy. An additional search for SCN1A intragenic microdeletions in the remaining patients with SMEI/SMEI-borderland and no point mutations was also negative. CONCLUSIONS These results confirm the role of the SCN1A gene in different types of epilepsy, including cryptogenic epileptic syndromes. However, large deletions encompassing SCN1A were not common disease-causing rearrangements in this group of epilepsies.

A wide spectrum of clinical, neurophysiological and neuroradiological abnormalities in a family with a novel CACNA1A mutation

Background Mutations in the calcium channel voltage dependent P/Q-type α-1A subunit (CACNA1A) can cause different neurological disorders which share a wide range of symptoms, including episodic ataxia type 2 (EA2), familial hemiplegic migraine (FHM1) and progressive spinocerebellar ataxia (SCA6). Objective To describe a three generations family in which a spectrum of different phenotypes, ranging from SCA6 (proband), to EA2 (probands mother) to FHM1 (probands mother and probands aunt) was found. All of the family members carried a novel CACNA1A missense mutation. Patients and methods A clinical, molecular, neuroradiological and neurophysiological study was carried out in all subjects. Results A single heterozygous base change in exon 9, c1213G→A, leading to the amino acid substitution pAla405Thr was found to segregate within the family. Brain MRI showed cerebellar and cerebral atrophy signs in all but one mutation carriers. Neurophysiological findings (electroencephalography and evoked potentials) confirmed possible cerebral cortex and white matter involvement regardless of the clinical symptoms displayed. Conclusions This novel CACNA1A mutation adds to the number of mutations associated with a heterogeneous clinical picture in family members. This mutation might affect the interaction between the intracellular loops and the β subunit, leading to a relatively rapid cell death. In order to explain the wide phenotypic variability observed in this family, it is hypothesised that additional genetic and environmental (hormonal) factors play a role in the pathophysiology of the disease.

Visual function in infants with West syndrome: correlation with EEG patterns.

Summary:  Purpose: Several studies have reported behavioral and electrophysiological evidence of visual impairment during the active stage of West syndrome. The underlying mechanisms are, however, poorly understood, and little has been reported about the correlation between visual impairment, EEG patterns, and brain lesions. The aim of the study was to assess visual function at the onset of spasm and 2 months thereafter and relate visual findings to brain lesions and EEG features.

Electroclinical pattern in MECP2 duplication syndrome: Eight new reported cases and review of literature

Purpose:  Duplications encompassing the MECP2 gene on the Xq28 region have been described in male patients with moderate to severe mental retardation, absent speech, neonatal hypotonia, progressive spasticity and/or ataxia, recurrent severe respiratory infections, gastrointestinal problems, mild facial dysmorphisms (midface hypoplasia, depressed nasal bridge, large ears) and epilepsy. Epilepsy can occur in >50% of cases, but the types of seizures and the electroclinical findings in affected male individuals have been poorly investigated up to the present. Herein we describe eight patients with MECP2 duplication syndrome and a specific clinical and electroencephalographic pattern.

Cognitive competence at the onset of West syndrome: correlation with EEG patterns and visual function

The aim of this study was to evaluate cognitive development at the onset of West syndrome (WS) with regard to electroencephalogram (EEG) patterns and visual function. Twenty-five patients (14 males, 11 females) at the onset of spasms (T0) in WS and 2 months later (T1) underwent a full clinical evaluation, including neuroimaging, cognitive assessment, video-EEG, and visual function. Mean age of the patients at spasm onset was 5.9 months (SD 2.5; range 2 to 13mo). Cognitive development, assessed with Griffiths Mental Development Scales (GMDS), was generally impaired at T0 and was significantly related to visual function (p<0.001) at both T0 and T1. In general, there was a specific major impairment in the eye-hand coordination scale of the GMDS which tended to disappear after 2 months in less severe cases. At the onset of spasms, sleep EEG organization seemed to be better related to cognitive abilities than awake hypsarrhythmia. These results support a close link between visual function and cognitive competence in WS and provide additional information to improve the understanding of possible mechanisms underlying cognitive impairment.

Electrical status epilepticus during sleep in Mowat–Wilson syndrome

AIM Mowat-Wilson Syndrome (MWS) is a genetic rare disease. Epilepsy is present in 70-75% of Patients and an age-dependent electroclinical pattern has been described. Up to date, there are studies with overnight sleep EEGs, probably because of the severe intellectual disability (ID) and hyperactivity of these Patients. Our purpose was to verify the hypothesis that MWS Patients might have electrical status epilepticus in slow wave sleep (ESES pattern). METHODS A retrospective analysis of anamnestic and electrographic data was performed on 7 consecutive MWS Patients followed between 2007 and 2016. Only Patients with at least one overnight sleep EEG were included in the study. RESULTS Five out of 7 Patients had overnight sleep EEG studies and were included in this study. All of them had an anterior ESES pattern with spike-and-wave index>85%. The architecture of sleep was abnormal. An ESES related regression of cognitive and motor functions with impact on daily activities (ESES-related syndrome) was demonstrated in 3 out of 5 (60%) Patients. In two Patients marked improvement of cognitive and motor performances was observed when the epileptiform activity during sleep was successfully controlled or it was spontaneously reduced. CONCLUSIONS The clinical significance of the ESES pattern is hard to assess in MWS Patients due to severe ID, but changing in behaviour or in motor and cognitive functions should mandate sleep EEG investigation and, if ESES is present, an appropriate treatment should be tried. Furthermore, overnight sleep EEG recordings, if regularly performed in the follow up, might help to understand if ESES pattern hampers the cognitive and communicative profile in MWS.

Partial deletion of DEPDC5 in a child with focal epilepsy

We report on a child, aged 47/12 years, with borderline intelligence quotient, normal brain magnetic resonance imaging, and focal epilepsy. The polysomnographic electroencephalogram recording revealed asynchronous central spikes at both brain hemispheres resembling the features observed in focal idiopathic epileptic syndromes. Array comparative genomic hybridization analysis revealed a 32‐kb partial deletion of the DEP domain‐containing protein 5 (DEPDC5) gene, involved in a wide spectrum of inherited focal epileptic syndromes. The parental origin of the deletion could not be fully ascertained because the pregnancy had been achieved through anonymous egg donation and insemination by intracytoplasmic sperm injection. However, we demonstrate that the deletion, shared by all alternatively spliced isoforms of DEPDC5, produces a transcript presumably generating a DEPDC5 protein missing the entire DEP domain. Our findings suggest that partial deletion of DEPDC5 may be sufficient to cause the focal epilepsy in our patient, highlighting the importance of the DEP domain in DEPDC5 function. This study expands the phenotypic spectrum of DEPDC5 to sporadic forms of focal idiopathic epilepsy and underscores the fact that partial deletions, albeit probably very rare, are part of the genetic spectrum of DEPDC5 mutations.

Paroxysmal phenomena in severe disabled children with refractory seizures. From clinical to long-video-EEG processing data to re-examine suspect events

To provide an estimate of the occurrence of misdiagnosis in paroxysmal events in institutionalized children with severe disabilities and refractory epilepsy. A multi-step diagnostic survey, from observational to long-term video-EEG monitoring was performed in 46 severe disabled children. Multirater Kappa statistic was used to assess agreement between investigators and to individualize children who remained with dubious events. Subsequently, prolonged EEG-video monitoring analysis was performed in selected children to define phenomena due to seizures. A total of 128 video records were performed, 64 routine video-EEG and 27 long-monitoring video-EEG data were screened for detailed analysis. Thirty (21 female, 9 male) children (65%) with dubious seizures were identified by video records (concordance K=0.63). Of these, in 18 children (39%) seizures were excluded by routine video-EEG monitoring (K=0.86). Twelve children (26%) required accurate investigations with long-term video-EEG. In 5 children (11%), 3 symptomatic and 2 cryptogenic, very short and subtle seizures were confirmed by investigators concordance (K=0.83). Distinguishing paroxysmal phenomena is a challenge in children with severe disabilities; its most remarkable consequence is inappropriate pharmacological treatment and social costs. Our data suggest that the frequency of misdiagnosis could have been underestimated. The clinicians who manage children with severe disabilities and refractory epilepsy must remain alert to risk of an incorrect treatment.

Dislessia, discalculia e sindromi epilettiche

Il crescente interesse per i Disturbi Specifici dell’Apprendimento e, in particolare, per la dislessia, sta oggi alla base di molte ricerche mirate a chiarirne le determinanti neurobiologiche, a scopo sia preventivo che terapeutico. In questo contesto assume un particolare rilievo anche la questione dei rapporti tra DSA e patologia epilettica. L’articolo contiene un’esauriente revisione degli studi finora condotti sulle relazioni tra i quadri di dislessia e discalculia e le forme di epilessia idiopatiche e sintomatiche, soffermandosi inoltre sul discusso rapporto tra questi tipi di DSA e la presenza di anomalie EEG epilettiformi.