Clinical characteristics of 80 subjects with KCNQ2-related encephalopathy: Results from a family-driven survey.

Variants of KCNQ2 are associated with a wide spectrum of disorders, ranging from Self-limiting Neonatal Epilepsy (SelNE) to Early Onset Developmental and Epileptic Encephalopathy (KCNQ2-DEE). Comorbidities associated with this end of the spectrum have been seldomly described and their impact on the life of patients and their families is yet to be investigated. Collaborating with caregivers from different European family associations, we have developed a questionnaire aimed at investigating the onset and frequency of epileptic seizures, anti-seizure medications (ASM), hospitalizations, stages of development, and comorbidities. Responses from 80 patients, 40 males, from 14 countries have been collected. Median age 7.6 years (4 months - 43.6 years). Of 76 epileptic patients (93.6%), 55.3% were seizure-free with a mean age at last seizure of 26.7 months. Among patients with active epilepsy, those older have a lower frequency of seizures (p > 0.05). We were able to identify three different clusters of varying severity (Mild, Severe, Profound), based on neurodevelopmental features and symptoms, excluding epilepsy. Patients in a higher severity cluster had a higher mean number of comorbidities, which had a higher impact on families. Notably, patients in different clusters presented different epilepsy onset and courses. This study constitutes the most extensive data collection of patients with KCNQ2-DEE, with a focus on comorbidities in a wide age group. The participation of caregivers helps to define the impact of the disease on the lives of patients and families and can help identify new primary and secondary outcomes beyond seizures in future studies.

Electroclinical findings and long-term outcomes in epileptic patients with inv dup (15).

OBJECTIVE: To define the electroclinical phenotype and long-term outcomes in a cohort of patients with inv dup (15) syndrome. MATERIAL AND METHODS: The electroclinical data of 45 patients (25 males) affected by inv dup (15) and seizures were retrospectively analysed, and long-term follow-up of epilepsy was evaluated. RESULTS: Epilepsy onset was marked by generalized seizures in 53% of patients, epileptic spasms in 51%, focal seizures in 26%, atypical absences in 11% and epileptic falls in 9%. The epileptic syndromes defined were: generalized epilepsy (26.7%), focal epilepsy (22.3%), epileptic encephalopathy with epileptic spasms as the only seizure type (17.7%) and Lennox-Gastaut syndrome (33.3%). Drug-resistant epilepsy was detected in 55.5% of patients. There was a significant higher prevalence of seizure-free patients in those with seizure onset after the age of 5 years and with focal epilepsy, with respect to those with earlier epilepsy onset because most of these later developed an epileptic encephalopathy (69.2% vs 34.4%; P = .03), usually Lennox-Gastaut Syndrome in type. In fact, among patients with early-onset epilepsy, those presenting with epileptic spasms as the only seizure type associated with classical hypsarrhythmia achieved seizure freedom (P < .001) compared to patients with spasms and other seizure types associated with modified hypsarrhythmia. CONCLUSIONS: Epilepsy in inv dup (15) leads to a more severe burden of disease. Frequently, these patients show drug resistance, in particular when epilepsy onset is before the age of five and features epileptic encephalopathy.

Early-onset absence epilepsy: SLC2A1 gene analysis and treatment evolution.

BACKGROUND AND PURPOSES: To determine the prevalence of SLC2A1 mutations in children with early-onset absence epilepsy (EOAE) and to investigate whether there were differences in demographic and electroclinical data between patients who became seizure-free with anti-epileptic drug (AED) monotherapy (group I) and those who needed add-on treatment of a second AED (group II). METHODS: We reviewed children with EOAE attending different Italian epilepsy centers. All participants had onset of absence seizures within the first 3 years of life but otherwise conformed to a strict definition of childhood absence epilepsy. Mutation analysis of SLC2A1 was performed in each patient. RESULTS: Eighty-four children (57 in group I, 27 in group II) fulfilled the inclusion criteria. No mutation in SLC2A1 was found. There were no statistical differences between the two groups with regard to F/M ratio, age at onset of EOAE, early history of febrile seizures, first-degree family history for genetic generalized epilepsy, duration of AED therapy at 3 years after enrollment, use of AEDs at 3 years, failed withdrawals at 3 years, terminal remission of EOAE at 3 years, and 6-month follow-up EEG data. Mean duration of seizures/active epilepsy was significantly shorter in group I than in group II (P = 0.008). CONCLUSIONS: We demonstrate that in a large series of children with rigorous diagnosis of EOAE, no mutations in SLC2A1 gene are detected. Except for duration of seizures/active epilepsy, no significant differences in demographic and electroclinical aspects are observed between children with EOAE who responded well to AED monotherapy and those who became seizure-free with add-on treatment of a second AED.

Somatic mosaicism of PCDH19 mutation in a family with low-penetrance EFMR.

The occurrence of epilepsy with mental retardation limited to females (EFMR; MIM 300088) has been recently associated to mutations in the PCDH19 gene, located on chromosome X and encoding for protocadherin 19. EFMR shows a rare X-linked inheritance wherein affected females may be segregating a mutation through unaffected transmitting males (Fabisiak and Erickson Clin Genet 38(5):353-358, 1990; Juberg and Hellman J Pediatr 79:726-732, 1971; Ryan et al. Nat Genet 17(1):92-95, 1997). The description of a pedigree segregating PCDH19 mutations from unaffected mothers to patients (Depienne et al. Hum Mutat 32:E1959-1975, 2011; Dibbens et al. Neurology 76:1514-1519, 2011) complicates disease inheritance and genetic counseling. In the present study, we describe a PCDH19 mutation segregating from an asymptomatic mother to an EFMR patient. In order to correlate the healthy phenotype with the genotype of the transmitting mother, we quantified in a few tissues the level of the mutant allele by real-time PCR, disclosing a somatic mosaicism. This finding has a great impact on genetic counseling.

Refining the phenotype associated with MEF2C haploinsufficiency.

Recently, submicroscopic deletions of the 5q14.3 region have been described in patients with severe mental retardation (MR), stereotypic movements, epilepsy and cerebral malformations. Further delineation of a critical region of overlap in these patients pointed to MEF2C as the responsible gene. This finding was further reinforced by the identification of a nonsense mutation in a patient with a similar phenotype. In brain, MEF2C is essential for early neurogenesis, neuronal migration and differentiation. Here we present two additional patients with severe MR, autism spectrum disorder and epilepsy, carrying a very small deletion encompassing the MEF2C gene. This finding strengthens the role of this gene in severe MR, and enables further delineation of the clinical phenotype.

Familial Ohtahara syndrome due to a novel ARX gene mutation.

Recently, it has been reported that longer expansions of the polyalanine tract of the ARX gene could cause an early infantile encephalopathy with suppression burst pattern and that the length of this repeat region could be related to the severity of the electroclinical picture. We describe the history of two male individuals, born from monozygotic twin sisters, with Ohtahara syndrome (OS) that evolved into West syndrome phenotype and epileptic encephalopathy. In both children, we have found a previously unreported missense mutation in exon 5 of ARX gene (c.1604T>A) resulting in the substitution of a leucine with a glutamine in the aminoacid sequence. The two mothers and the maternal grandmother carry the same mutation which segregates with the disease phenotype in the family. This study confirms that ARX is involved in the pathogenesis of cryptogenic early onset epileptic encephalopathy, such as OS, and suggests that the severity of the electroclinical picture is likely to not exclusively correlate with the extent of expansions of the polyalanine tracts, but rather with the functional effect of different pathogenetic mutations.

EEG findings during "paroxysmal hemiplegia" in a patient with GLUT1-deficiency.

BACKGROUND: A growing number of studies have disclosed the myriad of features that can suggest the diagnosis of a Glucose-transporter-1 deficiency (GLUT1D). The occurrence of paroxysmal movement disorders such as exercise-induced dystonia and non-kinesigenic dyskinesia, received considerable emphasis, while limited attention has been paid to other paroxysmal phenomena, as transitory neurological disorders. These paroxysmal events are roughly and variably described as limb weakness, hemiparesis or ataxia. Their EEG correlate has been never documented. CASE DESCRIPTION AND CONCLUSION: We report the EEG pattern characterizing two acute episodes of paroxysmal paresis with confusion and aphasia, in a girl with GLUT1D. The EEG picture is characterized by a clear-cut contralateral EEG slowing, similar to what is observed in Alternating Hemiplegia of Childhood and Hemiplegic Migraine attacks. In our patient the paroxysmal events were responsive to a ketogenic diet.

Neuroimaging Changes in Menkes Disease, Part 2.

This is the second part of a retrospective and review MR imaging study aiming to define the frequency rate, timing, imaging features, and evolution of gray matter changes in Menkes disease, a rare multisystem X-linked disorder of copper metabolism characterized by early, severe, and progressive neurologic involvement. According to our analysis, neurodegenerative changes and focal basal ganglia lesions already appear in the early phases of the disease. Subdural collections are less common than generally thought; however, their presence remains important because they might challenge the differential diagnosis with child abuse and might precipitate the clinical deterioration. Anecdotal findings in our large sample seem to provide interesting clues about the protean mechanisms of brain injury in this rare disease and further highlight the broad spectrum of MR imaging findings that might be expected while imaging a child with the suspicion of or a known diagnosis of Menkes disease.

Neuroimaging Changes in Menkes Disease, Part 1.

Menkes disease is a rare multisystem X-linked disorder of copper metabolism. Despite an early, severe, and progressive neurologic involvement, our knowledge of brain involvement remains unsatisfactory. The first part of this retrospective and review MR imaging study aims to define the frequency rate, timing, imaging features, and evolution of intracranial vascular and white matter changes. According to our analysis, striking but also poorly evolutive vascular abnormalities characterize the very early phases of disease. After the first months, myelination delay becomes evident, often in association with protean focal white matter lesions, some of which reveal an age-specific brain vulnerability. In later phases of the disease, concomitant progressive neurodegeneration might hinder the myelination progression. The currently enriched knowledge of neuroradiologic finding evolution provides valuable clues for early diagnosis, identifies possible MR imaging biomarkers of new treatment efficacy, and improves our comprehension of possible mechanisms of brain injury in Menkes disease.

[Epilepsy and disorders of cortical development in children with congenital cytomegalovirus infection]. / Epilepsia y alteraciones del desarrollo cortical en niños con infección congénita por citomegalovirus.

INTRODUCTION: Neuroimaging and experimental studies have related cytomegalovirus (CMV) to certain neuronal migration disorders. MATERIAL AND METHODS: To define the electroclinical picture of children with epilepsy associated with disorders of cortical development (DCD) and congenital CMV infection, we conducted a clinical, electroencephalographic and neuroradiological study of 10 children with this condition. RESULTS: Eighty per cent of them had dismorphic traits, or malformations outside CNS. All showed other neuroradiological signs (cerebral calcification, white matter damage, porencephaly). Six patients with bihemispheric DCD (agyria-pachigyria, 2; 'poligyria', 1; schizencephaly, 1; bilateral opercular DCD, 2) showed: Tetraparesis, severe or profound mental deficiency, early onset epilepsy (mean age at onset: 11 months) with spasms, tonic seizures, partial seizures, and multifocal paroxysms or unusual diffuse sharp Alfa-Beta EEG activity. One child developed Epilepsia Partialis Continua. Children with bilateral opercular DCD evolved to a continuous spike and wave (SW) electrical status during wakefulness and sleep, linked to a worsening of psychomotor derangement. Four patients with unilateral hemispheric DCD (pachigyric or 'poligyric') showed: Congenital hemiparesis, mild intellectual deficiency, motor seizures (orofacial, hemiclonic, generalized) beginning in the third year of live, atypical absences with focal phenomena, frequent focal rhythmic SW discharges during wakefulness, and continuous SW status during sleep (CSWS). CONCLUSIONS: A wide spectrum of DCD due to congenital CMV infection is documented. Characteristic electroclinical pictures related to the extent and topographical distribution of the DCD are recognized, which may lead to an appropriate diagnosis and prognosis.

Different clinical and immunological presentation of ataxia-telangiectasia within the same family.

Ataxia-telangiectasia is a rare multisystem neurodegenerative genetic disorder due to mutation of ATM gene. The clinical expression and the immunological abnormalities are variable and apparently not associated with the type of ATM mutations. We report on two siblings affected by A-T with different clinical and immunological presentations; in particular in one the immunological phenotype was reminiscent of hyper IgM syndrome.

Periventricular heterotopia in fragile X syndrome.

The authors describe two unrelated individuals with fragile X syndrome (FXS) due to marked expansion and instability of the CGG trinucleotide repeats within the fragile X mental retardation 1 gene (FMR1) and periventricular heterotopia (PH). This observation suggests that the FMR1 gene is involved in neuronal migration and that abnormal neuronal migration, even beyond the resolution of MRI, contributes to the neurologic phenotype of FXS.

[Neurologic outcome in infants surgically treated for congenital cardiopathy: preliminary data]. / Outcome neurologico di lattanti operati per cardiopatia congenita: dati preliminari.

INTRODUCTION: Both surgical techniques for correction of congenital heart diseases (CHD) and intraoperatory neurologic protection improved during the last 20 years. Nevertheless cardiac surgery is still a risk for neurologic morbidity. METHODS AND PATIENTS: Analysis of the postoperative neurologic status of infants younger than 6 months who underwent cardiac surgery from January 1998 to December 1999. We reviewed the EEG tracings, cranial ultrasound reports (CUS) and CT scans of 48 patients. Diagnoses were: ventricular septal defect = 15, Fallot (TOF) = 9, patent ductus arteriosus (PDA) = 5, coarctation of aorta = 4, atrio-ventricular septal defect = 4, transposition of great arteries (TGA) = 3, hypoplastic left heart syndrome = 2, pulmonary atresia = 2, total anomalous pulmonary veins drainage = 2, double outlet right ventricle = 1, cor triatriatum = 1. Mean age (range) at intervention was 54 days (2-150), 44 infants (91.7%) survived at follow-up: 23 EEG, 22 CUS and 2 CT were performed in the recent postoperative. Among survivors 5/44 had neurologic complications. EEG was altered in 4: two of them (1 TOF, 1 TGA) had pathologic CUS and CT as well (ischemic pattern in the former, atrophy in the latter). Finally a preterm newborn with PDA had mild abnormalities at CUS. After a mean follow-up of 16 +/- 6 months 3/5 patients had mild-to-moderate psychomotor delay and 2 recovered. CONCLUSIONS: According to our preliminary data the prevalence of neurologic complications in infants who undergo cardiac surgery seems to be low. The pathological findings of the recent postoperative seem to recover up to normalization in some cases at mid-term follow-up. As expected, permanent complications effect more often complex CHD. Further follow-up studies to school age will be mandatory to check the very final results of cardiac surgery performed during early infancy.