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4. WEST SYNDROME ASSOCIATED WITH 14Q12 DUPLICATIONS HARBOURING FOXG1

Author

Striano, Pasquale, Paravidino, R, Federico, Sicca, Pietro, Chiurazzi, Stefania, Gimelli, Antonietta, Coppola, Angela, Robbiano, Monica, Traverso, Maria, Pintaudi, Simona, Giovannini, Francesca, Operto, Piernanda, Vigliano, Tiziana, Granata, Antonio, Romeo, Giangennaro, Coppola, Nicola, Specchio, Lucio, Giordano, Osborne, LUCY R., Giorgio, Gimelli, Minetti, Carlo, and Zara, Federico

Published
2011

6. Epilepsy, hippocampal sclerosis and febrile seizures linked by common genetic variation around SCN1A

Author

Kasperaviciute, D, Catarino, CB, Matarin, M, Leu, C, Novy, J, Tostevin, A, Leal, B, Hessel, EVS, Hallmann, K, Hildebrand, MS, Dahl, H-HM, Ryten, M, Trabzuni, D, Ramasamy, A, Alhusaini, S, Doherty, CP, Dorn, T, Hansen, J, Kraemer, G, Steinhoff, BJ, Zumsteg, D, Duncan, S, Kaelviaeinen, RK, Eriksson, KJ, Kantanen, A-M, Pandolfo, M, Gruber-Sedlmayr, U, Schlachter, K, Reinthaler, EM, Stogmann, E, Zimprich, F, Theatre, E, Smith, C, O'Brien, TJ, Tan, KM, Petrovski, S, Robbiano, A, Paravidino, R, Zara, F, Striano, P, Sperling, MR, Buono, RJ, Hakonarson, H, Chaves, J, Costa, PP, Silva, BM, da Silva, AM, de Graan, PNE, Koeleman, BPC, Becker, A, Schoch, S, von Lehe, M, Reif, PS, Rosenow, F, Becker, F, Weber, Y, Lerche, H, Roessler, K, Buchfelder, M, Hamer, HM, Kobow, K, Coras, R, Blumcke, I, Scheffer, IE, Berkovic, SF, Weale, ME, Delanty, N, Depondt, C, Cavalleri, GL, Kunz, WS, Sisodiya, SM, Kasperaviciute, D, Catarino, CB, Matarin, M, Leu, C, Novy, J, Tostevin, A, Leal, B, Hessel, EVS, Hallmann, K, Hildebrand, MS, Dahl, H-HM, Ryten, M, Trabzuni, D, Ramasamy, A, Alhusaini, S, Doherty, CP, Dorn, T, Hansen, J, Kraemer, G, Steinhoff, BJ, Zumsteg, D, Duncan, S, Kaelviaeinen, RK, Eriksson, KJ, Kantanen, A-M, Pandolfo, M, Gruber-Sedlmayr, U, Schlachter, K, Reinthaler, EM, Stogmann, E, Zimprich, F, Theatre, E, Smith, C, O'Brien, TJ, Tan, KM, Petrovski, S, Robbiano, A, Paravidino, R, Zara, F, Striano, P, Sperling, MR, Buono, RJ, Hakonarson, H, Chaves, J, Costa, PP, Silva, BM, da Silva, AM, de Graan, PNE, Koeleman, BPC, Becker, A, Schoch, S, von Lehe, M, Reif, PS, Rosenow, F, Becker, F, Weber, Y, Lerche, H, Roessler, K, Buchfelder, M, Hamer, HM, Kobow, K, Coras, R, Blumcke, I, Scheffer, IE, Berkovic, SF, Weale, ME, Delanty, N, Depondt, C, Cavalleri, GL, Kunz, WS, and Sisodiya, SM

Abstract

Epilepsy comprises several syndromes, amongst the most common being mesial temporal lobe epilepsy with hippocampal sclerosis. Seizures in mesial temporal lobe epilepsy with hippocampal sclerosis are typically drug-resistant, and mesial temporal lobe epilepsy with hippocampal sclerosis is frequently associated with important co-morbidities, mandating the search for better understanding and treatment. The cause of mesial temporal lobe epilepsy with hippocampal sclerosis is unknown, but there is an association with childhood febrile seizures. Several rarer epilepsies featuring febrile seizures are caused by mutations in SCN1A, which encodes a brain-expressed sodium channel subunit targeted by many anti-epileptic drugs. We undertook a genome-wide association study in 1018 people with mesial temporal lobe epilepsy with hippocampal sclerosis and 7552 control subjects, with validation in an independent sample set comprising 959 people with mesial temporal lobe epilepsy with hippocampal sclerosis and 3591 control subjects. To dissect out variants related to a history of febrile seizures, we tested cases with mesial temporal lobe epilepsy with hippocampal sclerosis with (overall n = 757) and without (overall n = 803) a history of febrile seizures. Meta-analysis revealed a genome-wide significant association for mesial temporal lobe epilepsy with hippocampal sclerosis with febrile seizures at the sodium channel gene cluster on chromosome 2q24.3 [rs7587026, within an intron of the SCN1A gene, P = 3.36 × 10(-9), odds ratio (A) = 1.42, 95% confidence interval: 1.26-1.59]. In a cohort of 172 individuals with febrile seizures, who did not develop epilepsy during prospective follow-up to age 13 years, and 6456 controls, no association was found for rs7587026 and febrile seizures. These findings suggest SCN1A involvement in a common epilepsy syndrome, give new direction to biological understanding of mesial temporal lobe epilepsy with hippocampal sclerosis with febrile seizures, and

Published
2013

7. Loss-of-function KCNH2 mutation in a family with long QT syndrome, epilepsy, and sudden death

Author

Partemi, Sara, Cestèle, S, Pezzella, M, Campuzano, O, Paravidino, R, Pascali, Vincenzo Lorenzo, Zara, F, Tassinari, Ca, Striano, S, Oliva, Antonio, Brugada, R, Mantegazza, M, Striano, P., Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224), Oliva, Antonio (ORCID:0000-0001-7120-616X), Partemi, Sara, Cestèle, S, Pezzella, M, Campuzano, O, Paravidino, R, Pascali, Vincenzo Lorenzo, Zara, F, Tassinari, Ca, Striano, S, Oliva, Antonio, Brugada, R, Mantegazza, M, Striano, P., Pascali, Vincenzo Lorenzo (ORCID:0000-0001-6520-5224), and Oliva, Antonio (ORCID:0000-0001-7120-616X)

Abstract

There has been increased interest in a possible association between epilepsy channelopathies and cardiac arrhythmias, such as long QT syndrome (LQTS). We report a kindred that features LQTS, idiopathic epilepsy, and increased risk of sudden death. Genetic study showed a previously unreported heterozygous point mutation (c.246T>C) in the KCNH2 gene. Functional studies showed that the mutation induces severe loss of function. This observation provides further evidence for a possible link between idiopathic epilepsy and LQTS.

Published
2013

8. West syndrome associated with 14q12 duplications harboring FOXG1

Author

Striano, P, Paravidino, R, Sicca, F, Chiurazzi, Pietro, Gimelli, S, Coppola, A, Robbiano, A, Traverso, M, Pintaudi, M, Giovannini, S, Operto, F, Vigliano, P, Granata, T, Coppola, G, Romeo, A, Specchio, N, Giordano, L, Osborne, Lr, Gimelli, G, Minetti, C, Zara, F., Chiurazzi, Pietro (ORCID:0000-0001-5104-1521), Giovannini, S (ORCID:0000-0001-9125-752X), Striano, P, Paravidino, R, Sicca, F, Chiurazzi, Pietro, Gimelli, S, Coppola, A, Robbiano, A, Traverso, M, Pintaudi, M, Giovannini, S, Operto, F, Vigliano, P, Granata, T, Coppola, G, Romeo, A, Specchio, N, Giordano, L, Osborne, Lr, Gimelli, G, Minetti, C, Zara, F., Chiurazzi, Pietro (ORCID:0000-0001-5104-1521), and Giovannini, S (ORCID:0000-0001-9125-752X)

Abstract

no abstract available.

Published
2011

10. West syndrome associated with 14q12 duplications harboring FOXG1

Author

Striano, P., primary, Paravidino, R., additional, Sicca, F., additional, Chiurazzi, P., additional, Gimelli, S., additional, Coppola, A., additional, Robbiano, A., additional, Traverso, M., additional, Pintaudi, M., additional, Giovannini, S., additional, Operto, F., additional, Vigliano, P., additional, Granata, T., additional, Coppola, G., additional, Romeo, A., additional, Specchio, N., additional, Giordano, L., additional, Osborne, L. R., additional, Gimelli, G., additional, Minetti, C., additional, and Zara, F., additional

Published
2011
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13. Brain MRI findings in severe myoclonic epilepsy in infancy and genotype-phenotype correlations

Author

Davide Mei, Carla Marini, Giuseppe Capovilla, Laura Siri, Maria Margherita Mancardi, Francesca Darra, Francesca Ragona, Francesca Longaretti, Maurizio Elia, Roberta Biancheri, Federico Zara, Charlotte Dravet, Fabio Tortora, Nicola Specchio, Giuseppe Gobbi, Antonino Romeo, Lucio Giordano, Elena Gennaro, Tiziana Granata, Renzo Guerrini, Francesca Beccaria, Carlo Minetti, Federico Vigevano, Andrea Rossi, Roberto Gaggero, Salvatore Striano, Bernardo Dalla Bernardina, Pasquale Striano, Roberta Paravidino, Francesca Madia, Striano, P., Mancardi, M. M., Biancheri, R., Madia, F., Gennaro, E., Paravidino, R., Beccaria, F., Capovilla, G., Bernardina, B. D., Darra, F., Elia, M., Giordano, L., Gobbi, G., Granata, T., Ragona, F., Guerrini, R., Marini, C., Mei, D., Longaretti, F., Romeo, A., Siri, L., Specchio, N., Vigevano, F., Striano, Salvatore, Tortora, F., Rossi, A., Minetti, C., Dravet, C., Gaggero, R., Zara, F., Striano, P, Mancardi, Mm, Biancheri, R, Madia, F, Gennaro, E, Paravidino, R, Beccaria, F, Capovilla, G, DALLA BERNARDINA, B, Darra, F, Elia, M, Giordano, L, Gobbi, G, Granata, T, Ragona, F, Guerrini, R, Marini, C, Mei, D, Longaretti, F, Romeo, A, Siri, L, Specchio, N, Vigevano, F, Tortora, F, Rossi, A, Minetti, C, Dravet, C, Gaggero, R, Bernardina, Bd, Striano, S, and Tortora, Fabio

Subjects
Male, Pathology, pathology, Child, Child, pathology, Humans, Infant, Magnetic Resonance Imaging, Epilepsies, Myoclonic, Epilepsies, Hippocampus, Severity of Illness Index, Sodium Channels, Epilepsy, genetics, Child, Chromatography, High Pressure Liquid, Chromatography, Brain, Syndrome, Magnetic Resonance Imaging, statistics /&/ numerical data, Phenotype, Neurology, Child, Preschool, High Pressure Liquid, Cerebellar atrophy, Female, diagnosis/genetics/pathology, Female, Genotype, Hippocampu, genetics, Nerve Tissue Protein, MRI, Adult, genetics, Syndrome, medicine.medical_specialty, Adolescent, Genotype, Nerve Tissue Proteins, Preschool, Chromatography, High Pressure Liquid, Epilepsie, Central nervous system disease, Atrophy, Dravet syndrome, medicine, Humans, Preschool, Adolescent, Adult, Brain, Retrospective Studies, Hippocampal sclerosis, business.industry, statistics /&/ numerical data, Male, Mutation, Infant, Cortical dysplasia, medicine.disease, NAV1.1 Voltage-Gated Sodium Channel, High Pressure Liquid, Epilepsies, Myoclonic, diagnosis/genetics/pathology, Female, Genotype, Hippocampus, genetics, Nerve Tissue Proteins, genetics, Phenotype, Retrospective Studies, Severity of Illness Index, Sodium Channels, Mutation, Myoclonic epilepsy, pathology, Neurology (clinical), business, diagnosis/genetics/pathology, genetics, Phenotype, Retrospective Studies, Severity of Illness Index, Sodium Channel
Abstract

Summary: Introduction: To determine the occurrence of neuroradiological abnormalities and to perform genotype–phenotype correlations in severe myoclonic epilepsy of infancy (SMEI, Dravet syndrome). Patients and Methods: Alpha-subunit type A of voltage-gated sodium channel (SCN1A) mutational screening was performed by denaturing high-performance liquid chromatography (DHPLC) and multiplex ligation probe amplification (MLPA). MRI inclusion criteria were: last examination obtained after the age of 4 years on 1.5-T systems; hippocampal cuts acquired perpendicular to the long axis of the hippocampus; qualitative assessment was performed on T1-weighted, T2-weighted, proton density, and 1–3 mm thick coronal FLAIR images. Results: We collected 58 SMEI patients in whom last MRI was performed at or later than 4 years of age. SCN1A mutations occurred in 35 (60%) cases. Thirteen (22.4%) out of 58 patients showed abnormal MRIs. Eight patients showed cortical brain atrophy of which 3 associated to ventricles abnormalities, 1 to cerebellar atrophy, 1 to white matter hyperintensity; 3 patients had ventricles enlargement only; 1 patient showed hippocampal sclerosis (HS); 1 had focal cortical dysplasia. Genotype–phenotype analysis indicated that abnormal MRIs occurred more frequently in patients without SCN1A mutations (9/23; 39.1%) compared to those carrying SCN1A mutations (4/35; 11.4%) (p = 0.02). Conclusion: Different brain abnormalities may occur in SMEI. Only one case with HS was observed; thus, our study does not support the association between prolonged febrile seizures and HS in SMEI. Abnormal MRIs were significantly more frequent in patients without SCN1A mutations. Prospective MRI studies will assess the etiological role of the changes observed in these patients.

Published
2007

14. Loss-of-function KCNH2 mutation in a family with long QT syndrome, epilepsy, and sudden death

Author

Cestèle, Sandrine, Partemi, Sara, Cestele, Sandrine, Pezzella, Marianna, Campuzano, Oscar, Paravidino, Roberta, Pascali, Vincenzo, Zara, Federico, Tassinari, Carlo Alberto, Striano, Salvatore, Oliva, Antonio, Brugada, Ramon, Mantegazza, Massimo, Striano, Pasquale, Université Côte d'Azur, CNRS, UMR 7275, Institut de Pharmacologie Moléculaire et Cellulaire, Sophia Antipolis, Institute of Legal Medicine, Catholic University, Ingénierie des protéines (IP), Université de la Méditerranée - Aix-Marseille 2-Centre National de la Recherche Scientifique (CNRS), Pediatric Neurology and Neuromuscular Diseases Unit, Universita degli studi di Genova, Cardiovascular Genetics Center, Universitat de Girona (UdG), Institute G. Gaslini, Department of Neurological Sciences, Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Epilepsy Center, Università degli studi di Napoli Federico II, departament de Quimica, Universitat Autònoma de Barcelona (UAB), Department of Neurophysiopathology, Besta Neurological Institute, Partemi, S, Cest?le, S, Pezzella, M, Campuzano, O, Paravidino, R, Pascali, Vl, Zara, F, Tassinari, Ca, Striano, Salvatore, Oliva, A, Brugada, R, Mantegazza, M, Striano, Pasquale, Institut de pharmacologie moléculaire et cellulaire (IPMC), Université Nice Sophia Antipolis (... - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), IRCCS, Università degli studi di Genova = University of Genoa (UniGe), and University of Naples Federico II = Università degli studi di Napoli Federico II

Subjects
ERG1 Potassium Channel, Patch-Clamp Techniques, [SDV]Life Sciences [q-bio], DNA Mutational Analysis, Twins, 030204 cardiovascular system & hematology, Membrane Potentials, Epilepsy, Death, Sudden, Electrocardiography, 0302 clinical medicine, Channelopathy, Twins, Dizygotic, KCNH2, ComputingMilieux_MISCELLANEOUS, Cell Line, Transformed, medicine.diagnostic_test, Sudden death, Death, Long QT Syndrome, Neurology, Mutation (genetic algorithm), Cardiology, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Female, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Adolescent, Long QT syndrome, Transfection, Biophysical Phenomena, Cell Line, 03 medical and health sciences, Bacterial Proteins, Internal medicine, medicine, Dizygotic, Humans, Point Mutation, cardiovascular diseases, Loss function, Family Health, business.industry, Point mutation, Settore MED/43 - MEDICINA LEGALE, medicine.disease, Sudden, Electric Stimulation, Ether-A-Go-Go Potassium Channels, Luminescent Proteins, Endocrinology, Transformed, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

International audience; There has been increased interest in a possible association between epilepsy channelopathies and cardiac arrhythmias, such as long QT syndrome (LQTS). We report a kindred that features LQTS, idiopathic epilepsy, and increased risk of sudden death. Genetic study showed a previously unreported heterozygous point mutation (c.246T>C) in the KCNH2 gene. Functional studies showed that the mutation induces severe loss of function. This observation provides further evidence for a possible link between idiopathic epilepsy and LQTS.

Published
2013

15. Genetic testing in benign familial epilepsies of the first year of life: Clinical and diagnostic significance

Author

Maurizio Viri, Nicola Specchio, Angela Robbiano, Marilena Vecchi, Federico Vigevano, Viviana Cardilli, Anna Maria Laverda, Francesca Vanadia, Pasquale Striano, Amedeo Bianchi, Lucio Giordano, Nicola Vanni, Gemma Incorpora, Francesca Beccaria, Massimo Mastrangelo, Mauro Budetta, Francesca Darra, Guya Occhi, Roberto Gaggero, Lorella Caffi, Lucia Fusco, Bernardo Dalla Bernardina, Carlo Minetti, Roberta Paravidino, Renzo Guerrini, Luigina Spaccini, Pierangelo Veggiotti, Elena Gennaro, Domenico A. Coviello, Maurizio Taglialatela, Federico Zara, Giuseppe Capovilla, Zara, F, Specchio, N, Striano, P, Robbiano, A, Gennaro, E, Paravidino, R, Vanni, N, Beccaria, F, Capovilla, G, Bianchi, A, Caffi, L, Cardilli, V, Darra, F, Bernardina, Bd, Fusco, L, Gaggero, R, Giordano, L, Guerrini, R, Incorpora, G, Mastrangelo, M, Spaccini, L, Laverda, Am, Vecchi, M, Vanadia, F, Veggiotti, P, Viri, M, Occhi, G, Budetta, M, Taglialatela, Maurizio, Coviello, Da, Vigevano, F, and Minetti, C.

Subjects
Adult, Male, Adolescent, Nerve Tissue Proteins, Biology, medicine.disease_cause, Bioinformatics, KCNQ3 Potassium Channel, Cohort Studies, Epilepsy, Young Adult, Predictive Value of Tests, medicine, Humans, KCNQ2 Potassium Channel, Benign familial neonatal seizures, Genetic Testing, Benign epilepsy, Age of Onset, Child, Genetic testing, Aged, Genetics, Aged, 80 and over, KCNQ2, Mutation, KCNQ3, NAV1.2 Voltage-Gated Sodium Channel, medicine.diagnostic_test, Genetic heterogeneity, Infant, Membrane Proteins, Paroxysmal dyskinesia, Middle Aged, medicine.disease, Epilepsy, Benign Neonatal, Channelopathies, PRRT2, Neurology, Child, Preschool, Multigene Family, Female, Neurology (clinical), Age of onset
Abstract

Summary Purpose To dissect the genetics of benign familial epilepsies of the first year of life and to assess the extent of the genetic overlap between benign familial neonatal seizures (BFNS), benign familial neonatal-infantile seizures (BFNIS), and benign familial infantile seizures (BFIS). Methods Families with at least two first-degree relatives affected by focal seizures starting within the first year of life and normal development before seizure onset were included. Families were classified as BFNS when all family members experienced neonatal seizures, BFNIS when the onset of seizures in family members was between 1 and 4 months of age or showed both neonatal and infantile seizures, and BFIS when the onset of seizures was after 4 months of age in all family members. SCN2A, KCNQ2, KCNQ3, PPRT2 point mutations were analyzed by direct sequencing of amplified genomic DNA. Genomic deletions involving KCNQ2 and KCNQ3 were analyzed by multiple-dependent probe amplification method. Key Findings A total of 46 families including 165 affected members were collected. Eight families were classified as BFNS, 9 as BFNIS, and 29 as BFIS. Genetic analysis led to the identification of 41 mutations, 14 affecting KCNQ2, 1 affecting KCNQ3, 5 affecting SCN2A, and 21 affecting PRRT2. The detection rate of mutations in the entire cohort was 89%. In BFNS, mutations specifically involve KCNQ2. In BFNIS two genes are involved (KCNQ2, six families; SCN2A, two families). BFIS families are the most genetically heterogeneous, with all four genes involved, although about 70% of them carry a PRRT2 mutation. Significance Our data highlight the important role of KCNQ2 in the entire spectrum of disorders, although progressively decreasing as the age of onset advances. The occurrence of afebrile seizures during follow-up is associated with KCNQ2 mutations and may represent a predictive factor. In addition, we showed that KCNQ3 mutations might be also involved in families with infantile seizures. Taken together our data indicate an important role of K-channel genes beyond the typical neonatal epilepsies. The identification of a novel SCN2A mutation in a family with infantile seizures with onset between 6 and 8 months provides further confirmation that this gene is not specifically associated with BFNIS and is also involved in families with a delayed age of onset. Our data indicate that PRRT2 mutations are clustered in families with BFIS. Paroxysmal kinesigenic dyskinesia emerges as a distinctive feature of PRRT2 families, although uncommon in our series. We showed that the age of onset of seizures is significantly correlated with underlying genetics, as about 90% of the typical BFNS families are linked to KCNQ2 compared to only 3% of the BFIS families, for which PRRT2 represents the major gene.

Published
2013

16. Clinical Significance of Rare Copy Number Variations in Epilepsy A Case-Control Survey Using Microarray-Based Comparative Genomic Hybridization

Author

Matteo Benelli, Michela Malacarne, Vincenzo Belcastro, Amedeo Bianchi, Simona Cavani, Marco Fichera, Giuseppe Gobbi, Maria Luigia Cavaliere, Antonio Falace, Maria Piccione, Giovanni Battista Ferrero, Stefania Gimelli, Maurizio Elia, Domenico A. Coviello, Federico Zara, Elena Freri, Franca Dagna Bricarelli, Marianna Pezzella, Alberto Magi, Monica Traverso, Antonietta Coppola, Angela Robbiano, Roberta Galasso, Margherita Silengo, Edoardo Ferlazzo, Carlo Minetti, Orsetta Zuffardi, Elisabetta Gazzerro, Cristina Molinatto, Roberta Paravidino, Salvatore Striano, Pasquale Striano, Striano, P., Coppola, A., Paravidino, R., Malacarne, M., Gimelli, S., Robbiano, A., Traverso, M., Pezzella, M., Belcastro, V., Bianchi, A., Elia, M., Falace, A., Gazzerro, E., Ferlazzo, E., Freri, E., Galasso, R., Gobbi, G., Molinatto, C., Cavani, S., Zuffardi, O., Striano, S., Ferrero, G., Silengo, M., Cavaliere, M., Benelli, M., Magi, A., Piccione, M., Dagna Bricarelli, F., Coviello, D., Fichera, M., Minetti, C., Zara, F., Striano, Salvatore, Ferrero, G. B., Cavaliere, M. L., Bricarelli, F. D., and Coviello, D. A.

Subjects
Male, Oncology, endocrine system diseases, Microarray, Gene Dosage, Preschool, Cohort Studies, Computational Biology, Diagnostic and Statistical Manual of Mental Disorders, Epilepsy, Bioinformatics, Polymerase Chain Reaction, Fluorescence, Intellectual Disability, Cohort Studies, Epilepsy, Settore MED/38 - Pediatria Generale E Specialistica, Gene Duplication, Prospective Studies, Copy-number variation, Age of Onset, Child, Prospective cohort study, In Situ Hybridization, Fluorescence, epidemiology/genetics, Nucleic Acid Hybridization, Polymerase Chain Reaction, Prospective Studies, Young Adult, Gene Rearrangement, Nucleic Acid Hybridization, Middle Aged, Control subjects, Magnetic Resonance Imaging, Diagnostic and Statistical Manual of Mental Disorders, genetics, Female, Gene Deletion, Gene Dosage, Gene Duplication, Gene Rearrangement, Genome-Wide Association Study, Humans, In Situ Hybridization, Italy, Rare Copy Number Variations, Epilepsy, Child, Preschool, Female, epidemiology/genetics, Italy, Adult, medicine.medical_specialty, Adolescent, Biology, Young Adult, Adolescent, Adult, Age of Onset, Aged, Child, Child, Arts and Humanities (miscellaneous), Intellectual Disability, Internal medicine, mental disorders, medicine, Humans, In patient, Clinical significance, epidemiology, Magnetic Resonance Imaging, Male, Microarray Analysis, Middle Aged, Nervous System Disease, Aged, Computational Biology, Microarray Analysis, medicine.disease, Settore MED/03 - Genetica Medica, Neurology (clinical), Nervous System Diseases, Gene Deletion, Genome-Wide Association Study, Comparative genomic hybridization
Abstract

Objective To perform an extensive search for genomic rearrangements by microarray-based comparative genomic hybridization in patients with epilepsy. Design Prospective cohort study. Setting Epilepsy centers in Italy. Patients Two hundred seventy-nine patients with unexplained epilepsy, 265 individuals with nonsyndromic mental retardation but no epilepsy, and 246 healthy control subjects were screened by microarray-based comparative genomic hybridization. Main Outcomes Measures Identification of copy number variations (CNVs) and gene enrichment. Results Rare CNVs occurred in 26 patients (9.3%) and 16 healthy control subjects (6.5%) (P = .26). The CNVs identified in patients were larger (P = .03) and showed higher gene content (P = .02) than those in control subjects. The CNVs larger than 1 megabase (P = .002) and including more than 10 genes (P = .005) occurred more frequently in patients than in control subjects. Nine patients (34.6%) among those harboring rare CNVs showed rearrangements associated with emerging microdeletion or microduplication syndromes. Mental retardation and neuropsychiatric features were associated with rare CNVs (P = .004), whereas epilepsy type was not. The CNV rate in patients with epilepsy and mental retardation or neuropsychiatric features is not different from that observed in patients with mental retardation only. Moreover, significant enrichment of genes involved in ion transport was observed within CNVs identified in patients with epilepsy. Conclusions Patients with epilepsy show a significantly increased burden of large, rare, gene-rich CNVs, particularly when associated with mental retardation and neuropsychiatric features. The limited overlap between CNVs observed in the epilepsy group and those observed in the group with mental retardation only as well as the involvement of specific (ion channel) genes indicate a specific association between the identified CNVs and epilepsy. Screening for CNVs should be performed for diagnostic purposes preferentially in patients with epilepsy and mental retardation or neuropsychiatric features.

Published
2012

17. West syndrome associated with 14q12 duplications harboring FOXG1

Author

Stefania Gimelli, Giangennaro Coppola, Maria Pintaudi, Francesca Felicia Operto, Antonietta Coppola, Federico Zara, Tiziana Granata, Federico Sicca, Anthony A. Romeo, Pasquale Striano, M. Traverso, S Giovannini, Giorgio Gimelli, Angela Robbiano, Nicola Specchio, Roberta Paravidino, Pietro Chiurazzi, L. Giordano, Carlo Minetti, LR Osborne, Piernanda Vigliano, Striano, P., Paravidino, R., Sicca, F., Chiurazzi, P., Gimelli, S., Coppola, A., Robbiano, A., Traverso, M., Pintaudi, M., Giovannini, S., Operto, F., Vigliano, P., Granata, T., Coppola, G., Romeo, A., Specchio, N., Giordano, L., Osborne, L. R., Gimelli, G., Minetti, C., and Zara, F.

Subjects
Male, Pathology, medicine.medical_specialty, Pediatrics, Neurology, CDKL5, Nerve Tissue Proteins, Biology, Settore MED/03 - GENETICA MEDICA, Central nervous system disease, Epilepsy, Chromosome Duplication, medicine, Humans, Psychomotor learning, Chromosomes, Human, Pair 14, Chromosome Aberrations, Infant, West Syndrome, Forkhead Transcription Factors, medicine.disease, Hypsarrhythmia, Etiology, Female, Neurology (clinical), medicine.symptom, Spasms, Infantile
Abstract

West syndrome (WS) is characterized by infantile-onset flexor and extensor spasms, an EEG pattern of a high amplitude with asynchronous activity of spikes and theta/delta waves (hypsarrhythmia), and impaired psychomotor development.1 In about 70%–80% of the children, WS develops as a consequence of metabolic disorders or brain lesions, but in many cases the etiology is unknown.2 ### Methods. See also appendices e-1 (Methods) and e-2 (case descriptions) on the Neurology ® Web site at www.neurology.org. We screened by high-resolution comparative genomic hybridization (array-CGH) 38 (20 male, 18 female) consecutively collected patients with WS of unknown etiology (table e-1). Diagnosis was based on 1) absence of prenatal or postnatal etiologic factors, 2) normal development and absence of neurologic abnormalities before the onset, and 3) normal laboratory and MRI findings at onset.1 Patients showing dysmorphisms or other birth defects were excluded. Mutations in ARX and CDKL5 / STK9 genes2 were excluded in all the patients. The Ethics Committees of involved centers approved the study and an informed consent was signed by the parents. …

Published
2011

18. Epilepsy, hippocampal sclerosis and febrile seizures linked by common genetic variation around SCN1A.

Author

Kasperaviciute D, Catarino CB, Matarin M, Leu C, Novy J, Tostevin A, Leal B, Hessel EV, Hallmann K, Hildebrand MS, Dahl HH, Ryten M, Trabzuni D, Ramasamy A, Alhusaini S, Doherty CP, Dorn T, Hansen J, Krämer G, Steinhoff BJ, Zumsteg D, Duncan S, Kälviäinen RK, Eriksson KJ, Kantanen AM, Pandolfo M, Gruber-Sedlmayr U, Schlachter K, Reinthaler EM, Stogmann E, Zimprich F, Théâtre E, Smith C, O'Brien TJ, Meng Tan K, Petrovski S, Robbiano A, Paravidino R, Zara F, Striano P, Sperling MR, Buono RJ, Hakonarson H, Chaves J, Costa PP, Silva BM, da Silva AM, de Graan PN, Koeleman BP, Becker A, Schoch S, von Lehe M, Reif PS, Rosenow F, Becker F, Weber Y, Lerche H, Rössler K, Buchfelder M, Hamer HM, Kobow K, Coras R, Blumcke I, Scheffer IE, Berkovic SF, Weale ME, Delanty N, Depondt C, Cavalleri GL, Kunz WS, and Sisodiya SM

Subjects
Epilepsy, Temporal Lobe etiology, Genome-Wide Association Study methods, Hippocampus pathology, Humans, Prospective Studies, Seizures, Febrile diagnosis, Temporal Lobe pathology, Epilepsy, Temporal Lobe genetics, Mutation genetics, NAV1.1 Voltage-Gated Sodium Channel genetics, Sclerosis genetics, Seizures, Febrile genetics
Abstract

Epilepsy comprises several syndromes, amongst the most common being mesial temporal lobe epilepsy with hippocampal sclerosis. Seizures in mesial temporal lobe epilepsy with hippocampal sclerosis are typically drug-resistant, and mesial temporal lobe epilepsy with hippocampal sclerosis is frequently associated with important co-morbidities, mandating the search for better understanding and treatment. The cause of mesial temporal lobe epilepsy with hippocampal sclerosis is unknown, but there is an association with childhood febrile seizures. Several rarer epilepsies featuring febrile seizures are caused by mutations in SCN1A, which encodes a brain-expressed sodium channel subunit targeted by many anti-epileptic drugs. We undertook a genome-wide association study in 1018 people with mesial temporal lobe epilepsy with hippocampal sclerosis and 7552 control subjects, with validation in an independent sample set comprising 959 people with mesial temporal lobe epilepsy with hippocampal sclerosis and 3591 control subjects. To dissect out variants related to a history of febrile seizures, we tested cases with mesial temporal lobe epilepsy with hippocampal sclerosis with (overall n = 757) and without (overall n = 803) a history of febrile seizures. Meta-analysis revealed a genome-wide significant association for mesial temporal lobe epilepsy with hippocampal sclerosis with febrile seizures at the sodium channel gene cluster on chromosome 2q24.3 [rs7587026, within an intron of the SCN1A gene, P = 3.36 × 10(-9), odds ratio (A) = 1.42, 95% confidence interval: 1.26-1.59]. In a cohort of 172 individuals with febrile seizures, who did not develop epilepsy during prospective follow-up to age 13 years, and 6456 controls, no association was found for rs7587026 and febrile seizures. These findings suggest SCN1A involvement in a common epilepsy syndrome, give new direction to biological understanding of mesial temporal lobe epilepsy with hippocampal sclerosis with febrile seizures, and open avenues for investigation of prognostic factors and possible prevention of epilepsy in some children with febrile seizures.

Published
2013
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19. Loss-of-function KCNH2 mutation in a family with long QT syndrome, epilepsy, and sudden death.

Author

Partemi S, Cestèle S, Pezzella M, Campuzano O, Paravidino R, Pascali VL, Zara F, Tassinari CA, Striano S, Oliva A, Brugada R, Mantegazza M, and Striano P

Subjects
Adolescent, Bacterial Proteins genetics, Bacterial Proteins metabolism, Biophysical Phenomena genetics, Cell Line, Transformed, DNA Mutational Analysis, ERG1 Potassium Channel, Electric Stimulation, Electrocardiography, Epilepsy complications, Female, Humans, Long QT Syndrome complications, Luminescent Proteins genetics, Luminescent Proteins metabolism, Membrane Potentials drug effects, Membrane Potentials genetics, Patch-Clamp Techniques, Point Mutation genetics, Transfection, Twins, Dizygotic genetics, Death, Sudden, Epilepsy genetics, Ether-A-Go-Go Potassium Channels genetics, Family Health, Long QT Syndrome genetics
Abstract

There has been increased interest in a possible association between epilepsy channelopathies and cardiac arrhythmias, such as long QT syndrome (LQTS). We report a kindred that features LQTS, idiopathic epilepsy, and increased risk of sudden death. Genetic study showed a previously unreported heterozygous point mutation (c.246T>C) in the KCNH2 gene. Functional studies showed that the mutation induces severe loss of function. This observation provides further evidence for a possible link between idiopathic epilepsy and LQTS., (Wiley Periodicals, Inc. © 2013 International League Against Epilepsy.)

Published
2013
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20. Genetic testing in benign familial epilepsies of the first year of life: clinical and diagnostic significance.

Author

Zara F, Specchio N, Striano P, Robbiano A, Gennaro E, Paravidino R, Vanni N, Beccaria F, Capovilla G, Bianchi A, Caffi L, Cardilli V, Darra F, Bernardina BD, Fusco L, Gaggero R, Giordano L, Guerrini R, Incorpora G, Mastrangelo M, Spaccini L, Laverda AM, Vecchi M, Vanadia F, Veggiotti P, Viri M, Occhi G, Budetta M, Taglialatela M, Coviello DA, Vigevano F, and Minetti C

Subjects
Adolescent, Adult, Age of Onset, Aged, Aged, 80 and over, Child, Child, Preschool, Cohort Studies, Female, Humans, Infant, Male, Middle Aged, Multigene Family genetics, Mutation genetics, Predictive Value of Tests, Young Adult, Epilepsy, Benign Neonatal diagnosis, Epilepsy, Benign Neonatal genetics, Genetic Testing methods, KCNQ2 Potassium Channel genetics, KCNQ3 Potassium Channel genetics, Membrane Proteins genetics, NAV1.2 Voltage-Gated Sodium Channel genetics, Nerve Tissue Proteins genetics
Abstract

Purpose: To dissect the genetics of benign familial epilepsies of the first year of life and to assess the extent of the genetic overlap between benign familial neonatal seizures (BFNS), benign familial neonatal-infantile seizures (BFNIS), and benign familial infantile seizures (BFIS)., Methods: Families with at least two first-degree relatives affected by focal seizures starting within the first year of life and normal development before seizure onset were included. Families were classified as BFNS when all family members experienced neonatal seizures, BFNIS when the onset of seizures in family members was between 1 and 4 months of age or showed both neonatal and infantile seizures, and BFIS when the onset of seizures was after 4 months of age in all family members. SCN2A, KCNQ2, KCNQ3, PPRT2 point mutations were analyzed by direct sequencing of amplified genomic DNA. Genomic deletions involving KCNQ2 and KCNQ3 were analyzed by multiple-dependent probe amplification method., Key Findings: A total of 46 families including 165 affected members were collected. Eight families were classified as BFNS, 9 as BFNIS, and 29 as BFIS. Genetic analysis led to the identification of 41 mutations, 14 affecting KCNQ2, 1 affecting KCNQ3, 5 affecting SCN2A, and 21 affecting PRRT2. The detection rate of mutations in the entire cohort was 89%. In BFNS, mutations specifically involve KCNQ2. In BFNIS two genes are involved (KCNQ2, six families; SCN2A, two families). BFIS families are the most genetically heterogeneous, with all four genes involved, although about 70% of them carry a PRRT2 mutation., Significance: Our data highlight the important role of KCNQ2 in the entire spectrum of disorders, although progressively decreasing as the age of onset advances. The occurrence of afebrile seizures during follow-up is associated with KCNQ2 mutations and may represent a predictive factor. In addition, we showed that KCNQ3 mutations might be also involved in families with infantile seizures. Taken together our data indicate an important role of K-channel genes beyond the typical neonatal epilepsies. The identification of a novel SCN2A mutation in a family with infantile seizures with onset between 6 and 8 months provides further confirmation that this gene is not specifically associated with BFNIS and is also involved in families with a delayed age of onset. Our data indicate that PRRT2 mutations are clustered in families with BFIS. Paroxysmal kinesigenic dyskinesia emerges as a distinctive feature of PRRT2 families, although uncommon in our series. We showed that the age of onset of seizures is significantly correlated with underlying genetics, as about 90% of the typical BFNS families are linked to KCNQ2 compared to only 3% of the BFIS families, for which PRRT2 represents the major gene., (Wiley Periodicals, Inc. © 2013 International League Against Epilepsy.)

Published
2013
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21. PRRT2 mutations are the major cause of benign familial infantile seizures.

Author

Schubert J, Paravidino R, Becker F, Berger A, Bebek N, Bianchi A, Brockmann K, Capovilla G, Dalla Bernardina B, Fukuyama Y, Hoffmann GF, Jurkat-Rott K, Anttonen AK, Kurlemann G, Lehesjoki AE, Lehmann-Horn F, Mastrangelo M, Mause U, Müller S, Neubauer B, Püst B, Rating D, Robbiano A, Ruf S, Schroeder C, Seidel A, Specchio N, Stephani U, Striano P, Teichler J, Turkdogan D, Vigevano F, Viri M, Bauer P, Zara F, Lerche H, and Weber YG

Subjects
Adolescent, Adult, Aged, Child, Child, Preschool, Humans, Infant, Male, Middle Aged, Mutation, Pedigree, Seizures, Febrile genetics, Membrane Proteins genetics, Nerve Tissue Proteins genetics, Spasms, Infantile genetics
Abstract

Mutations in PRRT2 have been described in paroxysmal kinesigenic dyskinesia (PKD) and infantile convulsions with choreoathetosis (PKD with infantile seizures), and recently also in some families with benign familial infantile seizures (BFIS) alone. We analyzed PRRT2 in 49 families and three sporadic cases with BFIS only of Italian, German, Turkish, and Japanese origin and identified the previously described mutation c.649dupC in an unstable series of nine cytosines to occur in 39 of our families and one sporadic case (77% of index cases). Furthermore, three novel mutations were found in three other families, whereas 17% of our index cases did not show PRRT2 mutations, including a large family with late-onset BFIS and febrile seizures. Our study further establishes PRRT2 as the major gene for BFIS alone., (© 2012 Wiley Periodicals, Inc.)

Published
2012
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22. Clinical significance of rare copy number variations in epilepsy: a case-control survey using microarray-based comparative genomic hybridization.

Author

Striano P, Coppola A, Paravidino R, Malacarne M, Gimelli S, Robbiano A, Traverso M, Pezzella M, Belcastro V, Bianchi A, Elia M, Falace A, Gazzerro E, Ferlazzo E, Freri E, Galasso R, Gobbi G, Molinatto C, Cavani S, Zuffardi O, Striano S, Ferrero GB, Silengo M, Cavaliere ML, Benelli M, Magi A, Piccione M, Dagna Bricarelli F, Coviello DA, Fichera M, Minetti C, and Zara F

Subjects
Adolescent, Adult, Age of Onset, Aged, Child, Child, Preschool, Cohort Studies, Computational Biology, Diagnostic and Statistical Manual of Mental Disorders, Female, Gene Deletion, Gene Duplication, Gene Rearrangement, Genome-Wide Association Study, Humans, In Situ Hybridization, Fluorescence, Intellectual Disability epidemiology, Intellectual Disability genetics, Italy epidemiology, Magnetic Resonance Imaging, Male, Microarray Analysis, Middle Aged, Nervous System Diseases epidemiology, Nervous System Diseases genetics, Nucleic Acid Hybridization, Polymerase Chain Reaction, Prospective Studies, Young Adult, Epilepsy genetics, Gene Dosage
Abstract

Objective: To perform an extensive search for genomic rearrangements by microarray-based comparative genomic hybridization in patients with epilepsy., Design: Prospective cohort study., Setting: Epilepsy centers in Italy., Patients: Two hundred seventy-nine patients with unexplained epilepsy, 265 individuals with nonsyndromic mental retardation but no epilepsy, and 246 healthy control subjects were screened by microarray-based comparative genomic hybridization., Main Outcome Measures: Identification of copy number variations (CNVs) and gene enrichment., Results: Rare CNVs occurred in 26 patients (9.3%) and 16 healthy control subjects (6.5%) (P = .26). The CNVs identified in patients were larger (P = .03) and showed higher gene content (P = .02) than those in control subjects. The CNVs larger than 1 megabase (P = .002) and including more than 10 genes (P = .005) occurred more frequently in patients than in control subjects. Nine patients (34.6%) among those harboring rare CNVs showed rearrangements associated with emerging microdeletion or microduplication syndromes. Mental retardation and neuropsychiatric features were associated with rare CNVs (P = .004), whereas epilepsy type was not. The CNV rate in patients with epilepsy and mental retardation or neuropsychiatric features is not different from that observed in patients with mental retardation only. Moreover, significant enrichment of genes involved in ion transport was observed within CNVs identified in patients with epilepsy., Conclusions: Patients with epilepsy show a significantly increased burden of large, rare, gene-rich CNVs, particularly when associated with mental retardation and neuropsychiatric features. The limited overlap between CNVs observed in the epilepsy group and those observed in the group with mental retardation only as well as the involvement of specific (ion channel) genes indicate a specific association between the identified CNVs and epilepsy. Screening for CNVs should be performed for diagnostic purposes preferentially in patients with epilepsy and mental retardation or neuropsychiatric features.

Published
2012
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23. A functional polymorphism in the SCN1A gene does not influence antiepileptic drug responsiveness in Italian patients with focal epilepsy.

Author

Manna I, Gambardella A, Bianchi A, Striano P, Tozzi R, Aguglia U, Beccaria F, Benna P, Campostrini R, Canevini MP, Condino F, Durisotti C, Elia M, Giallonardo AT, Iudice A, Labate A, La Neve A, Michelucci R, Muscas GC, Paravidino R, Zaccara G, Zucca C, Zara F, and Perucca E

Subjects
Adult, Anticonvulsants pharmacology, Carbamazepine analogs & derivatives, Carbamazepine pharmacology, Carbamazepine therapeutic use, Drug Resistance, Epilepsies, Partial genetics, Female, Genotype, Humans, Italy ethnology, Male, NAV1.1 Voltage-Gated Sodium Channel, Oxcarbazepine, Pharmacogenetics, White People genetics, Anticonvulsants therapeutic use, Epilepsies, Partial drug therapy, Nerve Tissue Proteins genetics, Polymorphism, Genetic, Sodium Channels genetics
Abstract

A splice site variation (c.603-91G>A or rs3812718) in the SCN1A gene has been claimed to influence efficacy and dose requirements of carbamazepine and phenytoin. We investigated the relationship between c.603-91G>A polymorphism and response to antiepileptic drugs (AEDs) in 482 patients with drug-resistant and 401 patients with drug-responsive focal epilepsy. Most commonly used AEDs were carbamazepine and oxcarbazepine. The distribution of c.603-91G>A genotypes was similar among drug-resistant and drug-responsive subjects, both in the entire population and in the groups treated with carbamazepine or oxcarbazepine. There was no association between the c.603-91G>A genotype and dosages of carbamazepine or oxcarbazepine. These findings rule out a major role of the SCN1A polymorphism as a determinant of AED response., (Wiley Periodicals, Inc. © 2011 International League Against Epilepsy.)

Published
2011
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24. A very fast and accurate method for calling aberrations in array-CGH data.

Author

Benelli M, Marseglia G, Nannetti G, Paravidino R, Zara F, Bricarelli FD, Torricelli F, and Magi A

Subjects
Algorithms, Computer Simulation, Comparative Genomic Hybridization methods, Oligonucleotide Array Sequence Analysis methods
Abstract

Array comparative genomic hybridization (aCGH) is a microarray technology that allows one to detect and map genomic alterations. The standard workflow of the aCGH data analysis consists of 2 steps: detecting the boundaries of the regions of changed copy number by means of a segmentation algorithm (break point identification) and then labeling each region as loss, neutral, or gain with a probabilistic framework (calling procedure). In this paper, we introduce a novel calling procedure based on a mixture of truncated normal distributions, named FastCall, that aims to give aberration probabilities to segmented aCGH data in a very fast and accurate way. Both on synthetic and real aCGH data, FastCall obtains excellent performances in terms of classification accuracy and running time.

Published
2010
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25. Brain MRI findings in severe myoclonic epilepsy in infancy and genotype-phenotype correlations.

Author

Striano P, Mancardi MM, Biancheri R, Madia F, Gennaro E, Paravidino R, Beccaria F, Capovilla G, Dalla Bernardina B, Darra F, Elia M, Giordano L, Gobbi G, Granata T, Ragona F, Guerrini R, Marini C, Mei D, Longaretti F, Romeo A, Siri L, Specchio N, Vigevano F, Striano S, Tortora F, Rossi A, Minetti C, Dravet C, Gaggero R, and Zara F

Subjects
Adolescent, Adult, Child, Child, Preschool, Epilepsies, Myoclonic diagnosis, Female, Hippocampus pathology, Humans, Infant, Male, Mutation genetics, NAV1.1 Voltage-Gated Sodium Channel, Nerve Tissue Proteins genetics, Retrospective Studies, Severity of Illness Index, Syndrome, Brain pathology, Chromatography, High Pressure Liquid, Epilepsies, Myoclonic genetics, Epilepsies, Myoclonic pathology, Genotype, Magnetic Resonance Imaging statistics & numerical data, Phenotype, Sodium Channels genetics
Abstract

Introduction: To determine the occurrence of neuroradiological abnormalities and to perform genotype-phenotype correlations in severe myoclonic epilepsy of infancy (SMEI, Dravet syndrome)., Patients and Methods: Alpha-subunit type A of voltage-gated sodium channel (SCN1A) mutational screening was performed by denaturing high-performance liquid chromatography (DHPLC) and multiplex ligation probe amplification (MLPA). MRI inclusion criteria were: last examination obtained after the age of 4 years on 1.5-T systems; hippocampal cuts acquired perpendicular to the long axis of the hippocampus; qualitative assessment was performed on T(1)-weighted, T(2)-weighted, proton density, and 1-3 mm thick coronal FLAIR images., Results: We collected 58 SMEI patients in whom last MRI was performed at or later than 4 years of age. SCN1A mutations occurred in 35 (60%) cases. Thirteen (22.4%) out of 58 patients showed abnormal MRIs. Eight patients showed cortical brain atrophy of which 3 associated to ventricles abnormalities, 1 to cerebellar atrophy, 1 to white matter hyperintensity; 3 patients had ventricles enlargement only; 1 patient showed hippocampal sclerosis (HS); 1 had focal cortical dysplasia. Genotype-phenotype analysis indicated that abnormal MRIs occurred more frequently in patients without SCN1A mutations (9/23; 39.1%) compared to those carrying SCN1A mutations (4/35; 11.4%) (p=0.02)., Conclusion: Different brain abnormalities may occur in SMEI. Only one case with HS was observed; thus, our study does not support the association between prolonged febrile seizures and HS in SMEI. Abnormal MRIs were significantly more frequent in patients without SCN1A mutations. Prospective MRI studies will assess the etiological role of the changes observed in these patients.

Published
2007
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26. Familial occurrence of febrile seizures and epilepsy in severe myoclonic epilepsy of infancy (SMEI) patients with SCN1A mutations.

Author

Mancardi MM, Striano P, Gennaro E, Madia F, Paravidino R, Scapolan S, Dalla Bernardina B, Bertini E, Bianchi A, Capovilla G, Darra F, Elia M, Freri E, Gobbi G, Granata T, Guerrini R, Pantaleoni C, Parmeggiani A, Romeo A, Santucci M, Vecchi M, Veggiotti P, Vigevano F, Pistorio A, Gaggero R, and Zara F

Subjects
Epilepsies, Myoclonic epidemiology, Epilepsy epidemiology, Humans, NAV1.1 Voltage-Gated Sodium Channel, Pedigree, Seizures, Febrile epidemiology, Epilepsies, Myoclonic genetics, Epilepsy genetics, Family, Mutation genetics, Nerve Tissue Proteins genetics, Seizures, Febrile genetics, Sodium Channels genetics
Abstract

Purpose: The role of the familial background in severe myoclonic epilepsy of infancy (SMEI) has been traditionally emphasized in literature, with 25-70% of the patients having a family history of febrile seizures (FS) or epilepsy. We explored the genetic background of SMEI patients carrying SCN1A mutations to further shed light on the genetics of this disorder., Methods: We analyzed the occurrence of FS and epilepsy among first- and second-degree relatives (N = 867) of 74 SMEI probands with SCN1A mutations (70 de novo, four inherited) and compared data with age-matched and ethnically matched control families. Familial clustering and syndromic concordance within the affected relatives in both groups were investigated., Results: The frequency of FS or epilepsy in relatives of SMEI patients did not significantly differ from that in controls (FS: 13 of 867 vs. 12 of 674, p = 0.66; epilepsy: 15 of 867 vs. six of 674, p = 0.16). Different forms of epilepsy were identified in both relatives of SMEI probands and controls. Twenty-eight relatives with FS and epilepsy were distributed in 20 (27%) of 74 SMEI families; among the controls, 18 affected relatives were clustered in 13 (18.5%) of 70 families. No pedigree showed several affected members, including the four with inherited mutations., Conclusions: A substantial epileptic family background is not present in our SMEI patients with SCN1A mutations. These data do not confirm previous observations and would not support polygenic inheritance in SMEI. The investigation of the family background in additional series of SMEI patients will further shed light on the genetics of this syndrome.

Published
2006
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