42 results on '"Ortigoza Escobar, Juan Dario"'
Search Results
2. Developmental and epileptic encephalopathy 56 due to YWHAG variants: 12 new cases and review of the literature
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Amato, Maria Eugenia, Balsells, Sol, Martorell, Loreto, Alcalá San Martín, Adrián, Ansell, Karen, Børresen, Malene Landbo, Johnson, Heather, Korff, Christian, Garcia-Tarodo, Stephanie, Lefranc, Jeremie, Denommé-Pichon, Anne-Sophie, Sarrazin, Elisabeth, Szabo, Nora Zsuzsanna, Saraiva, Jorge M., Wicher, Dorota, Goverde, Anne, Bindels-de Heus, Karen G.C.B., Barakat, Tahsin Stefan, and Ortigoza-Escobar, Juan Darío
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- 2024
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3. Improving paediatric movement disorders care: Insights on rating scales utilization and clinical practice
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Amato, María Eugenia, Darling, Alejandra, Stovickova, Lucie, Attard, Stephen, Eggink, Hendriekje, Engelen, Marc, Freilinger, Michael, Grosso, Salvatore, Hadzsiev, Kinga, Moroni, Isabella, Nardocci, Nardo, Neubauer, David, Nicita, Francesco, Pagliano, Emanuela, Siegert, Sandy, Soler, Doriette, van de Pol, Laura A., Vasco, Gessica, Vidailhet, Marie, Willemsen, Michel AAP., Zibordi, Federica, Zorzi, Giovanna, Zumrova, Alena, Reinhard, Carola, Sevin, Caroline, Wolf, Nicole, Rodriguez-Blazquez, Carmen, Sival, Deborah A., and Ortigoza-Escobar, Juan Darío
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- 2024
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4. Pathogenic variants in KMT2C result in a neurodevelopmental disorder distinct from Kleefstra and Kabuki syndromes
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Rots, Dmitrijs, Choufani, Sanaa, Faundes, Victor, Dingemans, Alexander J.M., Joss, Shelagh, Foulds, Nicola, Jones, Elizabeth A., Stewart, Sarah, Vasudevan, Pradeep, Dabir, Tabib, Park, Soo-Mi, Jewell, Rosalyn, Brown, Natasha, Pais, Lynn, Jacquemont, Sébastien, Jizi, Khadijé, Ravenswaaij-Arts, Conny M.A. van, Kroes, Hester Y., Stumpel, Constance T.R. M., Ockeloen, Charlotte W., Diets, Illja J., Nizon, Mathilde, Vincent, Marie, Cogné, Benjamin, Besnard, Thomas, Kambouris, Marios, Anderson, Emily, Zackai, Elaine H., McDougall, Carey, Donoghue, Sarah, O'Donnell-Luria, Anne, Valivullah, Zaheer, O'Leary, Melanie, Srivastava, Siddharth, Byers, Heather, Leslie, Nancy, Mazzola, Sarah, Tiller, George E., Vera, Moin, Shen, Joseph J., Boles, Richard, Jain, Vani, Brischoux-Boucher, Elise, Kinning, Esther, Simpson, Brittany N., Giltay, Jacques C., Harris, Jacqueline, Keren, Boris, Guimier, Anne, Marijon, Pierre, Vries, Bert B.A. de, Motter, Constance S., Mendelsohn, Bryce A., Coffino, Samantha, Gerkes, Erica H., Afenjar, Alexandra, Visconti, Paola, Bacchelli, Elena, Maestrini, Elena, Delahaye-Duriez, Andree, Gooch, Catherine, Hendriks, Yvonne, Adams, Hieab, Thauvin-Robinet, Christel, Josephi-Taylor, Sarah, Bertoli, Marta, Parker, Michael J., Rutten, Julie W., Caluseriu, Oana, Vernon, Hilary J., Kaziyev, Jonah, Zhu, Jia, Kremen, Jessica, Frazier, Zoe, Osika, Hailey, Breault, David, Nair, Sreelata, Lewis, Suzanne M.E., Ceroni, Fabiola, Viggiano, Marta, Posar, Annio, Brittain, Helen, Giovanna, Traficante, Giulia, Gori, Quteineh, Lina, Ha-Vinh Leuchter, Russia, Zonneveld-Huijssoon, Evelien, Mellado, Cecilia, Marey, Isabelle, Coudert, Alicia, Aracena Alvarez, Mariana Inés, Kennis, Milou G.P., Bouman, Arianne, Roifman, Maian, Amorós Rodríguez, María Inmaculada, Ortigoza-Escobar, Juan Dario, Vernimmen, Vivian, Sinnema, Margje, Pfundt, Rolph, Brunner, Han G., Vissers, Lisenka E.L.M., Kleefstra, Tjitske, Weksberg, Rosanna, and Banka, Siddharth
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- 2024
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5. Insights from European Reference Network for rare neurological disorders study surveys on diagnosis, treatment, and management of NKX2-1-related disorders
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Nou-Fontanet, Laia, Nguyen, Quang Tuan Rémy, Bachoud-Levi, Anne-Catherine, Reinhard, Carola, and Ortigoza-Escobar, Juan Darío
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- 2024
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6. Clinical and electrophysiological features of SCN8A variants causing episodic or chronic ataxia
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Lyu, Hang, Boßelmann, Christian M., Johannesen, Katrine M., Koko, Mahmoud, Ortigoza-Escobar, Juan Dario, Aguilera-Albesa, Sergio, Garcia-Navas Núñez, Deyanira, Linnankivi, Tarja, Gaily, Eija, van Ruiten, Henriette J.A., Richardson, Ruth, Betzler, Cornelia, Horvath, Gabriella, Brilstra, Eva, Geerdink, Niels, Orsucci, Daniele, Tessa, Alessandra, Gardella, Elena, Fleszar, Zofia, Schöls, Ludger, Lerche, Holger, Møller, Rikke S., and Liu, Yuanyuan
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- 2023
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7. Extreme phenotypic heterogeneity in non-expansion spinocerebellar ataxias
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Cunha, Paulina, Petit, Emilien, Coutelier, Marie, Coarelli, Giulia, Mariotti, Caterina, Faber, Jennifer, Van Gaalen, Judith, Damasio, Joana, Fleszar, Zofia, Tosi, Michele, Rocca, Clarissa, De Michele, Giovanna, Minnerop, Martina, Ewenczyk, Claire, Santorelli, Filippo M., Heinzmann, Anna, Bird, Thomas, Amprosi, Matthias, Indelicato, Elisabetta, Benussi, Alberto, Charles, Perrine, Stendel, Claudia, Romano, Silvia, Scarlato, Marina, Le Ber, Isabelle, Bassi, Maria Teresa, Serrano, Mercedes, Schmitz-Hübsch, Tanja, Doss, Sarah, Van Velzen, Gijs A.J., Thomas, Quentin, Trabacca, Antonio, Ortigoza-Escobar, Juan Dario, D'Arrigo, Stefano, Timmann, Dagmar, Pantaleoni, Chiara, Martinuzzi, Andrea, Besse-Pinot, Elsa, Marsili, Luca, Cioffi, Ettore, Nicita, Francesco, Giorgetti, Alejandro, Moroni, Isabella, Romaniello, Romina, Casali, Carlo, Ponger, Penina, Casari, Giorgio, De Bot, Susanne T., Ristori, Giovanni, Blumkin, Lubov, Borroni, Barbara, Goizet, Cyril, Marelli, Cecilia, Boesch, Sylvia, Anheim, Mathieu, Filla, Alessandro, Houlden, Henry, Bertini, Enrico, Klopstock, Thomas, Synofzik, Matthis, Riant, Florence, Zanni, Ginevra, Magri, Stefania, Di Bella, Daniela, Nanetti, Lorenzo, Sequeiros, Jorge, Oliveira, Jorge, Van de Warrenburg, Bart, Schöls, Ludger, Taroni, Franco, Brice, Alexis, and Durr, Alexandra
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- 2023
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8. Deep Brain Stimulation for Pediatric Movement Disorders
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Candela-Cantó, Santiago, Ortigoza-Escobar, Juan Darío, Darling, Alejandra, Rumià, Jordi, Alexiou, Georgios, editor, and Prodromou, Neofytos, editor
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- 2022
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9. Clinical and Molecular Profiling in GNAO1 Permits Phenotype–Genotype Correlation.
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Lasa‐Aranzasti, Amaia, Larasati, Yonika A., da Silva Cardoso, Juliana, Solis, Gonzalo P., Koval, Alexey, Cazurro‐Gutiérrez, Ana, Ortigoza‐Escobar, Juan Dario, Miranda, Maria Concepción, De la Casa‐Fages, Beatriz, Moreno‐Galdó, Antonio, Tizzano, Eduardo F., Gómez‐Andrés, David, Verdura, Edgard, Katanaev, Vladimir L., Pérez‐Dueñas, Belén, Cancho Candela, Ramón, Martinez, Jorge Pantoja, Cáceres‐Marzal, Cristina, Martí Carrera, Itxaso, and Duat‐Rodriguez, Ana
- Abstract
Background: Defects in GNAO1, the gene encoding the major neuronal G‐protein Gαo, are related to neurodevelopmental disorders, epilepsy, and movement disorders. Nevertheless, there is a poor understanding of how molecular mechanisms explain the different phenotypes. Objectives: We aimed to analyze the clinical phenotype and the molecular characterization of GNAO1‐related disorders. Methods: Patients were recruited in collaboration with the Spanish GNAO1 Association. For patient phenotyping, direct clinical evaluation, analysis of homemade‐videos, and an online questionnaire completed by families were analyzed. We studied Gαo cellular expression, the interactions of the partner proteins, and binding to guanosine triphosphate (GTP) and G‐protein‐coupled receptors (GPCRs). Results: Eighteen patients with GNAO1 genetic defects had a complex neurodevelopmental disorder, epilepsy, central hypotonia, and movement disorders. Eleven patients showed neurological deterioration, recurrent hyperkinetic crisis with partial recovery, and secondary complications leading to death in three cases. Deep brain stimulation improved hyperkinetic crisis, but had inconsistent benefits in dystonia. The molecular defects caused by pathogenic Gαo were aberrant GTP binding and hydrolysis activities, an inability to interact with cellular binding partners, and reduced coupling to GPCRs. Decreased localization of Gαo in the plasma membrane was correlated with the phenotype of "developmental and epileptic encephalopathy 17." We observed a genotype–phenotype correlation, pathogenic variants in position 203 were related to developmental and epileptic encephalopathy, whereas those in position 209 were related to neurodevelopmental disorder with involuntary movements. Milder phenotypes were associated with other molecular defects such as del.16q12.2q21 and I344del. Conclusion: We highlight the complexity of the motor phenotype, which is characterized by fluctuations throughout the day, and hyperkinetic crisis with a distinct post‐hyperkinetic crisis state. We confirm a molecular‐based genotype–phenotype correlation for specific variants. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Emergence of lingual dystonia and strabismus in early‐onset SCN8A self‐limiting familial infantile epilepsy
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Ancora, Caterina, primary, Ortigoza‐Escobar, Juan Dario, additional, Valletti, Margherita Aluffi, additional, Furia, Francesca, additional, Nielsen, Jens Erik Klint, additional, Møller, Rikke S., additional, and Gardella, Elena, additional
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- 2024
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11. Pathogenic variants in KMT2C result in a neurodevelopmental disorder distinct from Kleefstra and Kabuki syndromes
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Staf strategisch beleid, Genetica Klinische Genetica, Child Health, Rots, Dmitrijs, Choufani, Sanaa, Faundes, Victor, Dingemans, Alexander J.M., Joss, Shelagh, Foulds, Nicola, Jones, Elizabeth A., Stewart, Sarah, Vasudevan, Pradeep, Dabir, Tabib, Park, Soo Mi, Jewell, Rosalyn, Brown, Natasha, Pais, Lynn, Jacquemont, Sébastien, Jizi, Khadijé, Ravenswaaij-Arts, Conny M.A.van, Kroes, Hester Y., Stumpel, Constance T.R.M., Ockeloen, Charlotte W., Diets, Illja J., Nizon, Mathilde, Vincent, Marie, Cogné, Benjamin, Besnard, Thomas, Kambouris, Marios, Anderson, Emily, Zackai, Elaine H., McDougall, Carey, Donoghue, Sarah, O'Donnell-Luria, Anne, Valivullah, Zaheer, O'Leary, Melanie, Srivastava, Siddharth, Byers, Heather, Leslie, Nancy, Mazzola, Sarah, Tiller, George E., Vera, Moin, Shen, Joseph J., Boles, Richard, Jain, Vani, Brischoux-Boucher, Elise, Kinning, Esther, Simpson, Brittany N., Giltay, Jacques C., Harris, Jacqueline, Keren, Boris, Guimier, Anne, Marijon, Pierre, de Vries, Bert B.A., Motter, Constance S., Mendelsohn, Bryce A., Coffino, Samantha, Gerkes, Erica H., Afenjar, Alexandra, Visconti, Paola, Bacchelli, Elena, Maestrini, Elena, Delahaye-Duriez, Andree, Gooch, Catherine, Hendriks, Yvonne, Adams, Hieab, Thauvin-Robinet, Christel, Josephi-Taylor, Sarah, Bertoli, Marta, Parker, Michael J., Rutten, Julie W., Caluseriu, Oana, Vernon, Hilary J., Kaziyev, Jonah, Zhu, Jia, Kremen, Jessica, Frazier, Zoe, Osika, Hailey, Breault, David, Nair, Sreelata, Lewis, Suzanne M.E., Ceroni, Fabiola, Viggiano, Marta, Posar, Annio, Brittain, Helen, Giovanna, Traficante, Giulia, Gori, Quteineh, Lina, Ha-Vinh Leuchter, Russia, Zonneveld-Huijssoon, Evelien, Mellado, Cecilia, Marey, Isabelle, Coudert, Alicia, Aracena Alvarez, Mariana Inés, Kennis, Milou G.P., Bouman, Arianne, Roifman, Maian, Amorós Rodríguez, María Inmaculada, Ortigoza-Escobar, Juan Dario, Vernimmen, Vivian, Sinnema, Margje, Pfundt, Rolph, Brunner, Han G., Vissers, Lisenka E.L.M., Kleefstra, Tjitske, Weksberg, Rosanna, Banka, Siddharth, Staf strategisch beleid, Genetica Klinische Genetica, Child Health, Rots, Dmitrijs, Choufani, Sanaa, Faundes, Victor, Dingemans, Alexander J.M., Joss, Shelagh, Foulds, Nicola, Jones, Elizabeth A., Stewart, Sarah, Vasudevan, Pradeep, Dabir, Tabib, Park, Soo Mi, Jewell, Rosalyn, Brown, Natasha, Pais, Lynn, Jacquemont, Sébastien, Jizi, Khadijé, Ravenswaaij-Arts, Conny M.A.van, Kroes, Hester Y., Stumpel, Constance T.R.M., Ockeloen, Charlotte W., Diets, Illja J., Nizon, Mathilde, Vincent, Marie, Cogné, Benjamin, Besnard, Thomas, Kambouris, Marios, Anderson, Emily, Zackai, Elaine H., McDougall, Carey, Donoghue, Sarah, O'Donnell-Luria, Anne, Valivullah, Zaheer, O'Leary, Melanie, Srivastava, Siddharth, Byers, Heather, Leslie, Nancy, Mazzola, Sarah, Tiller, George E., Vera, Moin, Shen, Joseph J., Boles, Richard, Jain, Vani, Brischoux-Boucher, Elise, Kinning, Esther, Simpson, Brittany N., Giltay, Jacques C., Harris, Jacqueline, Keren, Boris, Guimier, Anne, Marijon, Pierre, de Vries, Bert B.A., Motter, Constance S., Mendelsohn, Bryce A., Coffino, Samantha, Gerkes, Erica H., Afenjar, Alexandra, Visconti, Paola, Bacchelli, Elena, Maestrini, Elena, Delahaye-Duriez, Andree, Gooch, Catherine, Hendriks, Yvonne, Adams, Hieab, Thauvin-Robinet, Christel, Josephi-Taylor, Sarah, Bertoli, Marta, Parker, Michael J., Rutten, Julie W., Caluseriu, Oana, Vernon, Hilary J., Kaziyev, Jonah, Zhu, Jia, Kremen, Jessica, Frazier, Zoe, Osika, Hailey, Breault, David, Nair, Sreelata, Lewis, Suzanne M.E., Ceroni, Fabiola, Viggiano, Marta, Posar, Annio, Brittain, Helen, Giovanna, Traficante, Giulia, Gori, Quteineh, Lina, Ha-Vinh Leuchter, Russia, Zonneveld-Huijssoon, Evelien, Mellado, Cecilia, Marey, Isabelle, Coudert, Alicia, Aracena Alvarez, Mariana Inés, Kennis, Milou G.P., Bouman, Arianne, Roifman, Maian, Amorós Rodríguez, María Inmaculada, Ortigoza-Escobar, Juan Dario, Vernimmen, Vivian, Sinnema, Margje, Pfundt, Rolph, Brunner, Han G., Vissers, Lisenka E.L.M., Kleefstra, Tjitske, Weksberg, Rosanna, and Banka, Siddharth
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- 2024
12. Variability in Phelan-McDermid syndrome in a cohort of 210 Individuals
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Nevado Blanco, Julián, García Miñaúr, Sixto, Palomares Bralo, María, Vallespín, Elena, Guillén Navarro, Encarna, Rosell, Jordi, Bel Fenellos, María Cristina, Mori, María Ángeles, Milá, Montserrat, del Campo, Miguel, Barrúz, Pilar, Santos Simarro, Fernando, Obregón, Gabriela, Orellana, Carmen, Pachajoa, Harry, Tenorio, Jair Antonio, Galán, Enrique, Cigudosa, Juan C., Moresco, Angélica, Saleme, César, Castillo, Silvia, Gabau, Elisabeth, Pérez Jurado, Luis, Barcia, Ana, Martín, María Soledad, Mansilla, Elena, Vallcorba, Isabel, García Murillo, Pedro, Cammarata Scalisi, Franco, Gonçalves Pereira, Natálya, Blanco Lago, Raquel, Serrano, Mercedes, Ortigoza Escobar, Juan Dario, Gener, Blanca, Seidel, Verónica Adriana, Tirado, Pilar, Lapuniza, Pablo, Nevado Blanco, Julián, García Miñaúr, Sixto, Palomares Bralo, María, Vallespín, Elena, Guillén Navarro, Encarna, Rosell, Jordi, Bel Fenellos, María Cristina, Mori, María Ángeles, Milá, Montserrat, del Campo, Miguel, Barrúz, Pilar, Santos Simarro, Fernando, Obregón, Gabriela, Orellana, Carmen, Pachajoa, Harry, Tenorio, Jair Antonio, Galán, Enrique, Cigudosa, Juan C., Moresco, Angélica, Saleme, César, Castillo, Silvia, Gabau, Elisabeth, Pérez Jurado, Luis, Barcia, Ana, Martín, María Soledad, Mansilla, Elena, Vallcorba, Isabel, García Murillo, Pedro, Cammarata Scalisi, Franco, Gonçalves Pereira, Natálya, Blanco Lago, Raquel, Serrano, Mercedes, Ortigoza Escobar, Juan Dario, Gener, Blanca, Seidel, Verónica Adriana, Tirado, Pilar, and Lapuniza, Pablo
- Abstract
REDES/FIBHULP08. FIBHULP PI: 2735. FIBHULP Auchan Reserch Project. FIBHULP. Raregenomics (B2017/BMD-3721). Referencias bibliográficas: • Anderlid B.-M. Schoumans J. Annerén G. Sahlén S. Kyllerman M. Vujic M. et al. (2002a). Subtelomeric Rearrangements Detected in Patients with Idiopathic Mental Retardation. Am. J. Med. Genet. 107 (4), 275–284. 10.1002/ajmg.10029 • Anderlid B.-M. Schoumans J. Annerén G. Tapia-Paez I. Dumanski J. Blennow E. et al. (2002b). FISH-mapping of a 100-kb Terminal 22q13 Deletion. Hum. Genet. 110 (5), 439–443. 10.1007/s00439-002-0713-7 • Betancur C. Buxbaum J. D. (2013). SHANK3 Haploinsufficiency: a "common" but Underdiagnosed Highly Penetrant Monogenic Cause of Autism Spectrum Disorders. Mol. Autism 4 (1), 17. 10.1186/2040-2392-4-17 • Boccuto L. Lauri M. Sarasua S. M. Skinner C. D. Buccella D. Dwivedi A. et al. (2013). Prevalence of SHANK3 Variants in Patients with Different Subtypes of Autism Spectrum Disorders. Eur. J. Hum. Genet. 21, 310–316. 10.1038/ejhg.2012.175 • Boeckers T. M. (2006). The Postsynaptic Density. Cell Tissue Res 326 (2), 409–422. 10.1007/s00441-006-0274-5 • Bonaglia M. C. Giorda R. Beri S. De Agostini C. Novara F. Fichera M. et al. (2011). Molecular Mechanisms Generating and Stabilizing Terminal 22q13 Deletions in 44 Subjects with Phelan/McDermid Syndrome. Plos Genet. 7, e1002173. 10.1371/journal.pgen.1002173 • Bonaglia M. C. Giorda R. Borgatti R. Felisari G. Gagliardi C. Selicorni A. et al. (2001b). Disruption of the ProSAP2 Gene in a t(12;22)(q24.1;q13.3) Is Associated with the 22q13.3 Deletion Syndrome. Am. J. Hum. Genet. 69 (2), 261–268. 10.1086/321293 • Bonaglia M. C. Giorda R. Mani E. Aceti G. Anderld B. M. Baroncini A. et al. (2001a). Identification of a Recurrent Breakpoint within the SHANK3 Gene in the 22q13.3 Deletion Syndrome. Am. J. Hum. Genet. 69 (2), 261–268. • Bowling K. M. Thompson M. L. Amaral M. D. Finnila C. R. Hiatt S. M. Engel K. L. et al. (2017). Genomic Diagnosis for Children with Intellectual Disab, Phelan-McDermid syndrome (PMS, OMIM# 606232) results from either different rearrangements at the distal region of the long arm of chromosome 22 (22q13.3) or pathogenic sequence variants in the SHANK3 gene. SHANK3 codes for a structural protein that plays a central role in the formation of the postsynaptic terminals and the maintenance of synaptic structures. Clinically, patients with PMS often present with global developmental delay, absent or severely delayed speech, neonatal hypotonia, minor dysmorphic features, and autism spectrum disorders (ASD), among other findings. Here, we describe a cohort of 210 patients with genetically confirmed PMS. We observed multiple variant types, including a significant number of small deletions (<0.5 Mb, 64/189) and SHANK3 sequence variants (21 cases). We also detected multiple types of rearrangements among microdeletion cases, including a significant number with post-zygotic mosaicism (9.0%, 17/189), ring chromosome 22 (10.6%, 20/189), unbalanced translocations (de novo or inherited, 6.4%), and additional rearrangements at 22q13 (6.3%, 12/189) as well as other copy number variations in other chromosomes, unrelated to 22q deletions (14.8%, 28/189). We compared the clinical and genetic characteristics among patients with different sizes of deletions and with SHANK3 variants. Our findings suggest that SHANK3 plays an important role in this syndrome but is probably not uniquely responsible for all the spectrum features in PMS. We emphasize that only an adequate combination of different molecular and cytogenetic approaches allows an accurate genetic diagnosis in PMS patients. Thus, a diagnostic algorithm is proposed., Depto. de Investigación y Psicología en Educación, Fac. de Educación, TRUE, pub
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- 2024
13. Broadening the clinical spectrum: molecular mechanisms and new phenotypes of ANO3-dystonia.
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Ousingsawat, Jiraporn, Talbi, Khaoula, Gómez-Martín, Hilario, Koy, Anne, Fernández-Jaén, Alberto, Tekgül, Hasan, Serdaroğlu, Esra, Schreiber, Rainer, Ortigoza-Escobar, Juan Dario, and Kunzelmann, Karl
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MOLECULAR spectra ,MEMBRANE potential ,DEEP brain stimulation ,ION channels ,MEMBRANE proteins - Abstract
Anoctamin 3 (ANO3) belongs to a family of transmembrane proteins that form phospholipid scramblases and ion channels. A large number of ANO3 variants were identified as the cause of craniocervical dystonia, but the underlying pathogenic mechanisms remain obscure. It was suggested that ANO3 variants may dysregulate intracellular Ca
2+ signalling, as variants in other Ca2+ regulating proteins like hippocalcin were also identified as a cause of dystonia. In this study, we conducted a comprehensive evaluation of the clinical, radiological and molecular characteristics of four individuals from four families who carried heterozygous variants in ANO3. The median age at follow-up was 6.6 years (ranging from 3.8 to 8.7 years). Three individuals presented with hypotonia and motor developmental delay. Two patients exhibited generalized progressive dystonia, while one patient presented with paroxysmal dystonia. Additionally, another patient exhibited early dyskinetic encephalopathy. One patient underwent bipallidal deep brain stimulation (DBS) and showed a mild but noteworthy response, while another patient is currently being considered for DBS treatment. Neuroimaging analysis of brain MRI studies did not reveal any specific abnormalities. The molecular spectrum included two novel ANO3 variants (V561L and S116L) and two previously reported ANO3 variants (A599D and S651N). As anoctamins are suggested to affect intracellular Ca2+ signals, we compared Ca2+ signalling and activation of ion channels in cells expressing wild-type ANO3 and cells expressing anoctamin variants. Novel V561L and S116L variants were compared with previously reported A599D and S651N variants and with wild-type ANO3 expressed in fibroblasts isolated from patients or when overexpressed in HEK293 cells. We identified ANO3 as a Ca2+ -activated phospholipid scramblase that also conducts ions. Impaired Ca2+ signalling and compromised activation of Ca2+ -dependent K+ channels were detected in cells expressing ANO3 variants. In the brain striatal cells of affected patients, impaired activation of KCa3.1 channels due to compromised Ca2+ signals may lead to depolarized membrane voltage and neuronal hyperexcitability and may also lead to reduced cellular viability, as shown in the present study. In conclusion, our study reveals the association between ANO3 variants and paroxysmal dystonia, representing the first reported link between these variants and this specific dystonic phenotype. We demonstrate that ANO3 functions as a Ca2+ -activated phospholipid scramblase and ion channel; cells expressing ANO3 variants exhibit impaired Ca2+ signalling and compromised activation of Ca2+ -dependent K+ channels. These findings provide a mechanism for the observed clinical manifestations and highlight the importance of ANO3 for neuronal excitability and cellular viability. [ABSTRACT FROM AUTHOR]- Published
- 2024
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14. Correction: A new blood DNA methylation signature for Koolen-de Vries syndrome: Classification of missense KANSL1 variants and comparison to fibroblast cells
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Awamleh, Zain, primary, Choufani, Sanaa, additional, Wu, Wendy, additional, Rots, Dmitrijs, additional, Dingemans, Alexander J. M., additional, Nadif Kasri, Nael, additional, Boronat, Susana, additional, Ibañez-Mico, Salvador, additional, Cuesta Herraiz, Laura, additional, Ferrer, Irene, additional, Martínez Carrascal, Antonio, additional, Pérez-Jurado, Luis A., additional, Aznar Lain, Gemma, additional, Ortigoza-Escobar, Juan Dario, additional, de Vries, Bert B. A., additional, Koolen, David A., additional, and Weksberg, Rosanna, additional
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- 2024
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15. Broadening the clinical spectrum: molecular mechanisms and new phenotypes of ANO3-dystonia
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Ousingsawat, Jiraporn, primary, Talbi, Khaoula, additional, Gómez-Martín, Hilario, additional, Koy, Anne, additional, Fernández-Jaén, Alberto, additional, Tekgül, Hasan, additional, Serdaroğlu, Esra, additional, Schreiber, Rainer, additional, Ortigoza-Escobar, Juan Dario, additional, and Kunzelmann, Karl, additional
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- 2023
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16. A Novel AIFM1‐Related Disorder Phenotype Treated with Deep Brain Stimulation
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Pijuan, Jordi, primary, Sevrioukova, Irina F., additional, García‐Campos, Óscar, additional, Hernaez, Mar, additional, Gort, Laura, additional, Gómez‐Chiari, Marta, additional, Jou, Cristina, additional, Candela‐Cantó, Santiago, additional, Rumiá, Jordi, additional, Artuch, Rafael, additional, Palau, Francesc, additional, Hoenicka, Janet, additional, and Ortigoza‐Escobar, Juan Dario, additional
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- 2023
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17. Emergence of lingual dystonia and strabismus in early‐onset SCN8Aself‐limitingfamilial infantile epilepsy
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Ancora, Caterina, Ortigoza‐Escobar, Juan Dario, Valletti, Margherita Aluffi, Furia, Francesca, Nielsen, Jens Erik Klint, Møller, Rikke S., and Gardella, Elena
- Abstract
Pathogenic variants in SCN8Aare associated with a broad phenotypic spectrum, including Self‐Limiting Familial Infantile Epilepsy (SeLFIE), characterized by infancy‐onset age‐related seizures with normal development and cognition. Movement disorders, particularly paroxysmal kinesigenic dyskinesia typically arising after puberty, may represent another core symptom. We present the case of a 1‐year‐old girl with a familial disposition to self‐limiting focal seizures from the maternal side and early‐onset orofacial movement disorders associated with SCN8A‐SeLFIE. Brain MRI was normal. Genetic testing revealed a maternally inherited SCN8Avariant [c.4447G > A; p.(Glu1483Lys)]. After the introduction of valproic acid, she promptly achieved seizure control as well as complete remission of strabismus and a significant decrease in episodes of tongue deviation. Family history, genetic findings, and epilepsy phenotype are consistent with SCN8A‐SeLFIE. Movement disorders are an important part of the SCN8Aphenotypic spectrum, and this case highlights the novel early‐onset orofacial movement disorders associated with this condition. The episodes of tongue deviation and protrusion suggest focal oromandibular (lingual) dystonia. Additionally, while infantile strabismus or esophoria is a common finding in healthy individuals, our case raises the possibility of an ictal origin of the strabismus. This study underscores the importance of recognizing and addressing movement disorders in SCN8A‐SeLFIE patients, particularly the rare early‐onset orofacial manifestations. It adds to the growing body of knowledge regarding the diverse clinical presentations of SCN8A‐associated disorders and suggests potential avenues for clinical management and further research. Content available: Video
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- 2024
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18. A new blood DNA methylation signature for Koolen-de Vries syndrome: Classification of missense KANSL1variants and comparison to fibroblast cells
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Awamleh, Zain, Choufani, Sanaa, Wu, Wendy, Rots, Dmitrijs, Dingemans, Alexander J. M., Nadif Kasri, Nael, Boronat, Susana, Ibañez-Mico, Salvador, Cuesta Herraiz, Laura, Ferrer, Irene, Martínez Carrascal, Antonio, Pérez-Jurado, Luis A., Aznar Lain, Gemma, Ortigoza-Escobar, Juan Dario, de Vries, Bert B. A., Koolen, David A., and Weksberg, Rosanna
- Abstract
Pathogenic variants in KANSL1and 17q21.31 microdeletions are causative of Koolen-de Vries syndrome (KdVS), a neurodevelopmental syndrome with characteristic facial dysmorphia. Our previous work has shown that syndromic conditions caused by pathogenic variants in epigenetic regulatory genes have identifiable patterns of DNA methylation (DNAm) change: DNAm signatures or episignatures. Given the role of KANSL1 in histone acetylation, we tested whether variants underlying KdVS are associated with a DNAm signature. We profiled whole-blood DNAm for 13 individuals with KANSL1variants, four individuals with 17q21.31 microdeletions, and 21 typically developing individuals, using Illumina’s Infinium EPIC array. In this study, we identified a robust DNAm signature of 456 significant CpG sites in 8 individuals with KdVS, a pattern independently validated in an additional 7 individuals with KdVS. We also demonstrate the diagnostic utility of the signature and classify two KANSL1VUS as well as four variants in individuals with atypical clinical presentation. Lastly, we investigated tissue-specific DNAm changes in fibroblast cells from individuals with KdVS. Collectively, our findings contribute to the understanding of the epigenetic landscape related to KdVS and aid in the diagnosis and classification of variants in this structurally complex genomic region.
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- 2024
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19. P637: A newly derived DNA methylation signature for Koolen de Vries syndrome addresses the diagnostic challenges of the 17q21.31 locus
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Awamleh, Zain, Choufani, Sanaa, Rots, Dmitrijs, Dingemans, Alexander, Ortigoza Escobar, Juan Dario, Koolen, David, de Vries, Bert, and Weksberg, Rosanna
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- 2024
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20. Clinical and electrophysiological features of SCN8A variants causing episodic or chronic ataxia
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Lyu, Hang, primary, Bosselmann, Christian M, additional, Johannesen, Katrine M, additional, Koko, Mahmoud E., additional, Ortigoza-Escobar, Juan Dario, additional, Aguilera-Albesa, Sergio, additional, Garcia-Navas Nunez, Deyanira, additional, Linnankivi, Tarja, additional, Gaily, Eija, additional, van Ruiten, Henriette JA, additional, Richardson, Ruth, additional, Betzler, Cornelia, additional, Horvath, Gabriella, additional, Brilstra, Eva, additional, Geerdink, Niels, additional, Orsucci, Daniele, additional, Tessa, Alessandra, additional, Gardella, Elena, additional, Fleszar, Zofia, additional, Schoels, Ludger, additional, Lerche, Holger, additional, Moeller, Rikke S, additional, and Liu, Yuanyuan, additional
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- 2023
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21. Clinical and electrophysiological features of SCN8A variants causing episodic or chronic ataxia
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Genetica Klinische Genetica, Brain, Lyu, Hang, Boßelmann, Christian M, Johannesen, Katrine M, Koko, Mahmoud, Ortigoza-Escobar, Juan Dario, Aguilera-Albesa, Sergio, Garcia-Navas Núñez, Deyanira, Linnankivi, Tarja, Gaily, Eija, van Ruiten, Henriette J A, Richardson, Ruth, Betzler, Cornelia, Horvath, Gabriella, Brilstra, Eva, Geerdink, Niels, Orsucci, Daniele, Tessa, Alessandra, Gardella, Elena, Fleszar, Zofia, Schöls, Ludger, Lerche, Holger, Møller, Rikke S, Liu, Yuanyuan, Genetica Klinische Genetica, Brain, Lyu, Hang, Boßelmann, Christian M, Johannesen, Katrine M, Koko, Mahmoud, Ortigoza-Escobar, Juan Dario, Aguilera-Albesa, Sergio, Garcia-Navas Núñez, Deyanira, Linnankivi, Tarja, Gaily, Eija, van Ruiten, Henriette J A, Richardson, Ruth, Betzler, Cornelia, Horvath, Gabriella, Brilstra, Eva, Geerdink, Niels, Orsucci, Daniele, Tessa, Alessandra, Gardella, Elena, Fleszar, Zofia, Schöls, Ludger, Lerche, Holger, Møller, Rikke S, and Liu, Yuanyuan
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- 2023
22. Treatable Inborn Errors of Metabolism Due to Membrane Vitamin Transporters Deficiency
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Ortigoza Escobar, Juan Darío and Pérez Dueñas, Belén
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- 2016
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23. Severity of GNAO1‐Related Disorder Correlates with Changes in G‐Protein Function.
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Domínguez‐Carral, Jana, Ludlam, William Grant, Junyent Segarra, Mar, Fornaguera Marti, Montserrat, Balsells, Sol, Muchart, Jordi, Čokolić Petrović, Dunja, Espinoza, Iván, Ortigoza‐Escobar, Juan Dario, Martemyanov, Kirill A., Armstrong, Judith, Blanco‐Lago, Raquel, Bou, Rosa, Cáceres‐Marzal, Cristina, Cancho‐Candela, Ramón, Candela, Santiago, Darling, Alejandra, De Los Santos, Mariela Mercedes, García‐Cazorla, Angels, and Martí‐Carrera, Itxaso
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EPILEPSY ,MOLECULAR pathology ,MAGNETIC resonance imaging ,MOVEMENT disorders ,MISSENSE mutation ,DEVELOPMENTAL delay - Abstract
Objective: GNAO1‐related disorders (OMIM #615473 and #617493), caused by variants in the GNAO1 gene, are characterized by developmental delay or intellectual disability, hypotonia, movement disorders, and epilepsy. Neither a genotype–phenotype correlation nor a clear severity score have been established for this disorder. The objective of this prospective and retrospective observational study was to develop a severity score for GNAO1‐related disorders, and to delineate the correlation between the underlying molecular mechanisms and clinical severity. Methods: A total of 16 individuals with GNAO1‐related disorders harboring 12 distinct missense variants, including four novel variants (p.K46R, p.T48I, p.R209P, and p.L235P), were examined with repeated clinical assessments, video‐electroencephalogram monitoring, and brain magnetic resonance imaging. The molecular pathology of each variant was delineated using a molecular deconvoluting platform. Results: The patients displayed a wide variability in the severity of their symptoms. This heterogeneity was well represented in the GNAO1‐related disorders severity score, with a broad range of results. Patients with the same variant had comparable severity scores, indicating that differences in disease profiles are not due to interpatient variability, but rather, to unique disease mechanisms. Moreover, we found a significant correlation between clinical severity scores and molecular mechanisms. Interpretation: The clinical score proposed here provides further insight into the correlation between pathophysiology and phenotypic severity in GNAO1‐related disorders. We found that each variant has a unique profile of clinical phenotypes and pathological molecular mechanisms. These findings will contribute to better understanding GNAO1‐related disorders. Additionally, the severity score will facilitate standardization of patients categorization and assessment of response to therapies in development. ANN NEUROL 2023;94:987–1004 [ABSTRACT FROM AUTHOR]
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- 2023
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24. Dyskinetic Crisis in GNAO1-Related Disorder: A Comprehensive International Delphi Study
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Dominguez-Carral, Jana, primary, Reinhard, Carola, additional, Ebrahimi-Fakhari, Darius, additional, Dorison, Nathalie, additional, Galosi, Serena, additional, Garone, Giacomo, additional, Malenica, Masa, additional, Ravelli, Claudia, additional, Serdaroglu, Esra, additional, van de Pol, Laura, additional, Koy, Anne, additional, Leuzzi, Vincenzo, additional, Roubertie, Agathe, additional, Lin, Jean Pierre, additional, Doummar, Diane, additional, Cif, Laura, additional, and Ortigoza-Escobar, Juan Dario, additional
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- 2023
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25. A Novel AIFM1‐Related Disorder Phenotype Treated with Deep Brain Stimulation.
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Pijuan, Jordi, Sevrioukova, Irina F., García‐Campos, Óscar, Hernaez, Mar, Gort, Laura, Gómez‐Chiari, Marta, Jou, Cristina, Candela‐Cantó, Santiago, Rumiá, Jordi, Artuch, Rafael, Palau, Francesc, Hoenicka, Janet, and Ortigoza‐Escobar, Juan Dario
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- 2024
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26. Corrigendum: Combining Literature Review With a Ground Truth Approach for Diagnosing Huntington's Disease Phenocopy
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Nguyen, Quang Tuan Rémy, primary, Ortigoza Escobar, Juan Dario, additional, Burgunder, Jean-Marc, additional, Mariotti, Caterina, additional, Saft, Carsten, additional, Hjermind, Lena Elisabeth, additional, Youssov, Katia, additional, Landwehrmeyer, G. Bernhard, additional, and Bachoud-Lévi, Anne-Catherine, additional
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- 2022
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27. Combining Literature Review With a Ground Truth Approach for Diagnosing Huntington's Disease Phenocopy
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Nguyen, Quang Tuan Rémy, primary, Ortigoza Escobar, Juan Dario, additional, Burgunder, Jean-Marc, additional, Mariotti, Caterina, additional, Saft, Carsten, additional, Hjermind, Lena Elisabeth, additional, Youssov, Katia, additional, Landwehrmeyer, G. Bernhard, additional, and Bachoud-Lévi, Anne-Catherine, additional
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- 2022
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28. Exploring the values, preferences, and information needs of patients with NKX2-1-related disorders: A qualitative study protocol.
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Martín-Gómez, Carmen, Ortigoza-Escobar, Juan Dario, Nou-Fontanet, Laia, Molina-Linde, Juan M., Bachoud-Lévi, Anne-Catherine, Léger, Juliane, and Blasco-Amaro, Juan Antonio
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INFORMATION needs , *RESEARCH protocols , *PATIENTS' attitudes , *QUALITATIVE research , *TECHNOLOGY assessment - Abstract
Background: NKX2-1-related disorders have a prevalence of 1:500,000 and are therefore considered a rare condition according to the European Commission's definition. The European Reference Network of Rare Neurological Disorders is developing the first clinical practice guideline on the management of this condition, with the support of the Andalusian Health Technology Assessment Area, Endo-ERN, ERN-Lung and Imegen, within the framework of the ERNs Guidelines programme (DG SANTE/2018/B3/030). Within the scope of this programme, it becomes necessary to explore the patient perspective in order to include it in the ongoing clinical practice guideline and accompanying patient information booklet. Methods and analysis: This study will use qualitative methods to explore the values, preferences and information needs of patient with NKX2-1-related disorders and their caregivers. Participants will come from a variety of countries throughout Europe. One focus group and four semi-structured interviews will be conducted. Pairs will analyse the data using Grounded Theory. The Andalusian Regional Ministry of Health's Ethics Coordinating Committee for Biomedical Research (Sevilla, Andalucía, Spain) has approved this study protocol (29/03/2022). Discussion: This is the first study to explore the values, preferences, and information needs of patients with NKX2-1-related disorders. The proposed study's findings will contribute to the generation of useful knowledge that will provide guidance to improve the care given to patients with the studied condition. While this study will provide valuable insights into the perspectives of patients with NKX2-1-related disorders, the findings are unlikely to be generalizable to patients with other conditions. [ABSTRACT FROM AUTHOR]
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- 2023
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29. Editorial: Pediatric Neurometabolic Disorders
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Tabarki, Brahim, primary, Ortigoza-Escobar, Juan Dario, additional, Lee, Wang-Tso, additional, and AlFadhel, Majid, additional
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- 2021
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30. The European Reference Network for Rare Neurological Diseases
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Reinhard, Carola, Bachoud-Lévi, Anne-Catherine, Bäumer, Tobias, Bertini, Enrico, Brunelle, Alicia, Buizer, Annemieke I., Federico, Antonio, Gasser, Thomas, Groeschel, Samuel, Hermanns, Sanja, Klockgether, Thomas, Krägeloh-Mann, Ingeborg, Landwehrmeyer, G. Bernhard, Leber, Isabelle, Macaya Ruiz, Alfons, Mariotti, Caterina, Meissner, Wassilios G., Molnar, Maria Judit, Nonnekes, Jorik, Ortigoza Escobar, Juan Dario, Pérez-Dueñas, Belén, Renna Linton, Lori, Schöls, Ludger, Schuele, Rebecca, Tijssen, Marina A. J., Vandenberghe, Rik, Volkmer, Anna, Wolf, Nicole I., Graessner, Holm, and Universitat Autònoma de Barcelona
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Standards of care ,Rare neurological diseases ,European reference network ,Virtual healthcare ,Training and education - Abstract
While rare diseases (RDs) are by definition of low prevalence, the total number of patients suffering from an RD is high, and the majority of them have neurologic manifestations, involving central, peripheral nerve, and muscle. In 2017, 24 European Reference Networks (ERNs), each focusing on a specific group of rare or low-prevalence complex diseases, were formed to improve the care for patients with an RD. One major aim is to have "the knowledge travel instead of the patient," which has been put into practice by the implementation of the Clinical Patient Management System (CPMS) that enables clinicians to perform pan-European virtual consultations. The European Reference Network for Rare Neurological Diseases (ERN-RND) provides an infrastructure for knowledge sharing and care coordination for patients affected by a rare neurological disease (RND) involving the most common central nervous system pathological conditions. It covers the following disease groups: (i) Cerebellar Ataxias and Hereditary Spastic Paraplegias; (ii) Huntington's disease and Other Choreas; (iii) Frontotemporal dementia; (iv) Dystonia, (non-epileptic) paroxysmal disorders, and Neurodegeneration with Brain Iron Accumulation; (v) Leukoencephalopathies; and (vi) Atypical Parkinsonian Syndromes. At the moment, it unites 32 expert centers and 10 affiliated partners in 21 European countries, as well as patient representatives, but will soon cover nearly all countries of the European Union as a result of the ongoing expansion process. Disease expert groups developed and consented on diagnostic flowcharts and disease scales to assess the different aspects of RNDs. ERN-RND has started to discuss diagnostically unclear patients in the CPMS, is one of four ERNs that serve as foundation of Solve-RD, and has established an RND training and education program. The network will facilitate trial readiness through the establishment of an ERN-RND registry with a minimal data of all patients seen at the ERN-RND centers, thus providing a unique overview of existing genotype-based cohorts. The overall aim of the ERNs is to improve access for patients with RDs to quality diagnosis, care, and treatment. Based on this objective, ERNs are monitored by the European Commission on a regular basis to provide transparency and reassurance to the RD community and the general public
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- 2021
31. The European Reference Network for Rare Neurological Diseases
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Reinhard, Carola, Bachoud-Lévi, Anne-Catherine, Bäumer, Tobias, Bertini, Enrico, Brunelle, Alicia, Buizer, Annemieke, Federico, Antonio, Gasser, Thomas, Groeschel, Samuel, Hermanns, Sanja, Klockgether, Thomas, Krägeloh-Mann, Ingeborg, Landwehrmeyer, G. Bernhard, Leber, Isabelle, Macaya, Alfons, Mariotti, Caterina, Meissner, Wassilios, Molnar, Maria Judit, Nonnekes, Jorik, Ortigoza Escobar, Juan Dario, Pérez Dueñas, Belen, Renna Linton, Lori, Schöls, Ludger, Schuele, Rebecca, Tijssen, Marina, Vandenberghe, Rik, Volkmer, Anna, Wolf, Nicole, Graessner, Holm, Gestionnaire, HAL Sorbonne Université 5, University of Tübingen, Département d'Etudes Cognitives - ENS Paris (DEC), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Lübeck University of Applied Sciences, NYU Tandon School of Engineering, VU University Medical Center [Amsterdam], Università degli Studi di Siena = University of Siena (UNISI), International Institute for Applied Systems Analysis [Laxenburg] (IIASA), University Children's Hospital of Tübingen, Partenaires INRAE, University Hospital Bonn, Universitätsklinikum Ulm - University Hospital of Ulm, Institut du Cerveau = Paris Brain Institute (ICM), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Universitat Autònoma de Barcelona (UAB), Instituto Neurologico C. Besta, Institut des Maladies Neurodégénératives [Bordeaux] (IMN), Université de Bordeaux (UB)-Centre National de la Recherche Scientifique (CNRS), Semmelweis University of Medicine [Budapest], Radboud University Medical Center [Nijmegen], CIBER de Enfermedades Raras (CIBERER), Plateforme d'information et de services pour les maladies rares et les médicaments orphelins (Orphanet), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Broussais-Institut National de la Santé et de la Recherche Médicale (INSERM), University of Groningen [Groningen], University Hospitals Leuven [Leuven], University College of London [London] (UCL), Vrije Universiteit Medical Centre (VUMC), Vrije Universiteit Amsterdam [Amsterdam] (VU), École normale supérieure - Paris (ENS Paris), Institut du Cerveau et de la Moëlle Epinière = Brain and Spine Institute (ICM), Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), and Radboud University Medical Centre [Nijmegen, The Netherlands]
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standards of care ,Clinical Neurology ,Review ,European reference network ,RECOMMENDATIONS ,training and education ,ddc:150 ,Medizinische Versorgung ,MANAGEMENT ,Delivery of health care ,virtual healthcare ,[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC] ,ddc:610 ,Seltene Krankheit ,ComputingMilieux_MISCELLANEOUS ,rare neurological diseases ,Science & Technology ,DDC 150 / Psychology ,Neurosciences ,Nervenkrankheit ,Nervous system diseases ,Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3] ,Rare diseases ,Neurology ,[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC] ,Neurosciences & Neurology ,Life Sciences & Biomedicine ,DDC 610 / Medicine & health - Abstract
While rare diseases (RDs) are by definition of low prevalence, the total number of patients suffering from an RD is high, and the majority of them have neurologic manifestations, involving central, peripheral nerve, and muscle. In 2017, 24 European Reference Networks (ERNs), each focusing on a specific group of rare or low-prevalence complex diseases, were formed to improve the care for patients with an RD. One major aim is to have “the knowledge travel instead of the patient,” which has been put into practice by the implementation of the Clinical Patient Management System (CPMS) that enables clinicians to perform pan-European virtual consultations. The European Reference Network for Rare Neurological Diseases (ERN-RND) provides an infrastructure for knowledge sharing and care coordination for patients affected by a rare neurological disease (RND) involving the most common central nervous system pathological conditions. It covers the following disease groups: (i) Cerebellar Ataxias and Hereditary Spastic Paraplegias; (ii) Huntington's disease and Other Choreas; (iii) Frontotemporal dementia; (iv) Dystonia, (non-epileptic) paroxysmal disorders, and Neurodegeneration with Brain Iron Accumulation; (v) Leukoencephalopathies; and (vi) Atypical Parkinsonian Syndromes. At the moment, it unites 32 expert centers and 10 affiliated partners in 21 European countries, as well as patient representatives, but will soon cover nearly all countries of the European Union as a result of the ongoing expansion process. Disease expert groups developed and consented on diagnostic flowcharts and disease scales to assess the different aspects of RNDs. ERN-RND has started to discuss diagnostically unclear patients in the CPMS, is one of four ERNs that serve as foundation of Solve-RD, and has established an RND training and education program. The network will facilitate trial readiness through the establishment of an ERN-RND registry with a minimal data of all patients seen at the ERN-RND centers, thus providing a unique overview of existing genotype-based cohorts. The overall aim of the ERNs is to improve access for patients with RDs to quality diagnosis, care, and treatment. Based on this objective, ERNs are monitored by the European Commission on a regular basis to provide transparency and reassurance to the RD community and the general public., publishedVersion
- Published
- 2020
32. The European Reference Network for Rare Neurological Diseases
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Reinhard, Carola, primary, Bachoud-Lévi, Anne-Catherine, additional, Bäumer, Tobias, additional, Bertini, Enrico, additional, Brunelle, Alicia, additional, Buizer, Annemieke I., additional, Federico, Antonio, additional, Gasser, Thomas, additional, Groeschel, Samuel, additional, Hermanns, Sanja, additional, Klockgether, Thomas, additional, Krägeloh-Mann, Ingeborg, additional, Landwehrmeyer, G. Bernhard, additional, Leber, Isabelle, additional, Macaya, Alfons, additional, Mariotti, Caterina, additional, Meissner, Wassilios G., additional, Molnar, Maria Judit, additional, Nonnekes, Jorik, additional, Ortigoza Escobar, Juan Dario, additional, Pérez Dueñas, Belen, additional, Renna Linton, Lori, additional, Schöls, Ludger, additional, Schuele, Rebecca, additional, Tijssen, Marina A. J., additional, Vandenberghe, Rik, additional, Volkmer, Anna, additional, Wolf, Nicole I., additional, and Graessner, Holm, additional
- Published
- 2021
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- View/download PDF
33. Delineating the neurological phenotype in children with defects in the ECHS1 or HIBCH gene
- Author
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Marti‐Sanchez, Laura, primary, Baide‐Mairena, Heidy, additional, Marcé‐Grau, Anna, additional, Pons, Roser, additional, Skouma, Anastasia, additional, López‐Laso, Eduardo, additional, Sigatullina, Maria, additional, Rizzo, Cristiano, additional, Semeraro, Michela, additional, Martinelli, Diego, additional, Carrozzo, Rosalba, additional, Dionisi‐Vici, Carlo, additional, González‐Gutiérrez‐Solana, Luis, additional, Correa‐Vela, Marta, additional, Ortigoza‐Escobar, Juan Dario, additional, Sánchez‐Montañez, Ángel, additional, Vazquez, Élida, additional, Delgado, Ignacio, additional, Aguilera‐Albesa, Sergio, additional, Yoldi, María Eugenia, additional, Ribes, Antonia, additional, Tort, Frederic, additional, Pollini, Luca, additional, Galosi, Serena, additional, Leuzzi, Vincenzo, additional, Tolve, Manuela, additional, Pérez‐Gay, Laura, additional, Aldamiz‐Echevarría, Luis, additional, Del Toro, Mireia, additional, Arranz, Antonio, additional, Roelens, Filip, additional, Urreizti, Roser, additional, Artuch, Rafael, additional, Macaya, Alfons, additional, and Pérez‐Dueñas, Belén, additional
- Published
- 2020
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34. Nusinersen versus sham control in later-onset spinal muscular atrophy
- Author
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Vogt, Sibylle, Krueger, Marcus, Pechmann, Astrid, Rippberger, Bianca, Eckenweiler, Matthias, Schara, Ulrike, Koelbel, Heike, Andres, Barbara, Rupprich, Katrin, Gangfuss, Andrea, Jachertz, Philipp, Della Marina, Adela, Sponemann, Nina, Pane, Markia, Palermo, Concetta, Piastra, Marco, Fanelli, Lavinia, de Sanctis, Roberto, Genovese, Orazio, Antonaci, Laura, Pera, Maria Carmela, Lamendola, Priscilla, Messina, Sonia, Vita, Gianluca, Di Bella, Vincenzo, Sframeli, Maria, Rosa, Matteo, Barcellona, Costanza, Distefano, Maria Grazia, Cavallaro, Filippo, Versaci, Antonio, de Luca, Francesco, Vita, Giuseppe, Nacimento Osorio, Andres, Tizzano, Eduardo, Ortez Gonzalez, Carlos Ignacio, Ortigoza Escobar, Juan Dario, Colomer Oferil, Juame, Medina Cantillo, Julita, Febrer Rotger, Anna, Vigo Morancho, Meritxell, Eldblom, Johanneh, Darin, Niklas, Kroksmark, Anna Karin, Lindstedt, Asa, Michael, Eva, Kimber, Eva, Wahlgren, Lisa, Chan, Sophelia Hoi-Shan, Chim, Stella, Chiu, Joseph, Ho, Alvin Chi Chung, Ip, Jing Kun Janice, Lam, Wendy Wai Man, Ng, Maggie Chui-San, Wan, Connie, Wong, Virginia Chun Nei, Yue, Yvonne, Arakawa, Reiko, Yamauchi, Akemi, Nagata, Satoru, Ito, Yasushi, Nakatsukasa, Hidetsugu, Takeshita, Akiko, Hirasawa, Kyoko, Ikai, Tetsuo, Eto, Kaoru, Otamni, Yui, Takeshima, Yasuhiro, Fukuda, Noroki, Tanaka, Yasuhiro, Shimomura, Hideki, Lee, Tomoko, Shibano, Takayuki, Mercuri, E., Tachikawa, Tomohiro, Darras, B. T., Chae, Jong-Hee, Chiriboga, C. A., Lim, Byung Chan, Day, J. W., Shin, Hyung-Ik, Campbell, C., Kim, Soo Yeon, Connolly, A. M., Choi, Sun Ah, Iannaccone, S. T., Son, Woo Sung, Kirschner, J., Jo, Hyemi, Kuntz, N. L., Chun, Seong Min, Saito, K., Kim, Hyuna, Shieh, P. B., Tulinius, M., Mazzone, E. S., Montes, J., Bishop, K. M., Yang, Q., Foster, R., Gheuens, S., Bennett, C. F., Farwell, W., Schneider, E., de Vivo, D. C., Finkel, R. S., Bradley, Walter G., Kaufmann, Petra, Dickson, Patricia I., Reingold, Stephen C., Davis, Charles S., Arredondo, Kristen, Castro, Diana, Cowie, Margaret, Farrow-Gillespie, Alan, Hebert, Andrew, Kauk, Melissa, Miller, Nancy, Nelson, Leslie, Spain, Thomas, Cappell, Joshua, Constantinescu, Andrei, Cruz, Rosangel, Dastgir, Jahannaz, de Vivo, Darryl, Dunaway, Sally, Engelstad, Kristin, Khandji, Alexander G., Kramer, Samantha, Marra, Jonathan, Popolizio, Molly, Salazar, Rachel, Weimer, Louis H., Aziz-Zaman, Sonya, Lamarca, Nicole, Ghosh, Partha, Al-Ghamdi, Fouad, Liew, Wendy, Graham, Robert, Berde, Charles, Sethna, Navil, Koka, Anjali, Wang, Luke, Laine, Regina, Souris, Michelle, Ordonez, Grace, Harrington, Timothy, Szelag, Heather, Pasternak, Amy, Mirek, Elizabeth, Quigley, Janet, Finkel, Richard, Berry, Debbie, Civitello, Matthew, Endsley, Julie Duke, Eden, Candace, Leon, Wendy, O'Reardon, Kathleen, Sigurdardottir, Laufey, Johnson, Craig, Turner, Jenna, Vega, Melisa, Weber-Guzman, Fabiola, Zinn, Matthias, Rocha, Ana Carolina Tesi, Watson, Karolina, d'Souza, Genevieve, Ramamurthi, R. J., Gee, Richard, Kitsuwa-Lowe, Janis, Hagerman, Katharine, Crasta, Sheela, Welsh, Lesly, Paulose, Shirley, Mcfall, Danielle, Perez, Jennifer, Patnaik, Swetapadma, Sanjanwala, Bharati, Sakamuri, Sarada, Proud, Crystal, Purse, Bona Park, Duong, Trinh Tina, Sampson, Jacinda, Tennekoon, Gihan, Brandsema, John, Glanzman, Allan, Flickinger, Jean, Toms, Michele, Adang, Laura, Stanford, Delores, Mayer, Oscar, Zigmont, Joshua, Chadehumbe, Madeline, Kichula, Elizabeth, Finanger, Erika, Russman, Barry, Roberts, Colin, Frank, Andrea, Benjamin, Danielle, Zilke, Kirsten, Golumbek, Paul T., Zaidman, Craig M., Anand, Pallavi, Gadeken, Rebecca, Siener, Catherine, Kuntz, Nancy, Epstein, Leon, Krueger, Jena, Goldman, Stewart, Krosschell, Kristin, Blomgren, Colleen, Choi, Hyoung Won, Kurz, Jonathan, Parsons, Julie, Janas, Joanne, Yang, Michele, Ballard, Alison, Carry, Terri, Shea, Stephanie, Bielsky, Alan, Booker, Kaylee, Camuto, Alicia, Lord-Halvorson, Sierra, Gibbons, Melissa, Zimmerman, Carl, Allen, Victoria, Fuhr, Peter, Johnson, Hannah, Tran, Vi, Vanderveen, Gina, Shieh, Perry, Fowler, Eileen, Parziale, Nicholas, Rao, Lekha, Skura, Christy, Kelley, Carolyn, Shu, Francy, Oskoui, Maryam, Zielinski, David, Poulin, Chantal, Ingelmo, Pablo Mauricio, Desilets, Sarah Turgeon, Dinunzio, Pamela, Rivera, Gonzalo, Srour, Myriam, Arpin, Stephanie, Goobie, Sharan, Gibson, Paul, Scholtes, Cheryl, Mcdonald, Wendy, Zapata, Eugenio, Nguyen, Cam-Tu Emilie, Servais, Laurent, Gargaun, Elena, Le Moing, Anne-Gaelle, Gidaro, Teresa, Vialle, Raphael, Guye, Marie-Laurence, Lilien, Charlotte, Olliver, Gwenn, Gilabert, Stephanie, Borell, Sabine, Wider, Sabine, Stein, Sabine, Universität Duisburg-Essen = University of Duisburg-Essen [Essen], Department of Paediatrics, Università cattolica del Sacro Cuore = Catholic University of the Sacred Heart [Roma] (Unicatt), Vall d'Hebron University Hospital [Barcelona], CIBER de Enfermedades Raras (CIBERER), Handicaps génétiques de l'enfant (Inserm U393), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Seoul National University Hospital, Max-Planck-Institut für Mikrostrukturphysik (MPI-HALLE), Max-Planck-Gesellschaft, The University of Tokyo (UTokyo), Institut de Chimie Organique et Analytique (ICOA), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université d'Orléans (UO)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Institute of Plasma Physics, Chinese Academy of Sciences (ASIPP), Institut Necker Enfants-Malades (INEM - UM 111 (UMR 8253 / U1151)), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Laboratoire de mécanique des solides (LMS), École polytechnique (X)-Mines Paris - PSL (École nationale supérieure des mines de Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), CureSMA [Elk Grove Village, IL, USA], Harvard Medical School [Boston] (HMS), Institute for Marine and Antarctic Studies [Hobart] (IMAS), University of Tasmania [Hobart, Australia] (UTAS), The Hospital for sick children [Toronto] (SickKids), University of Toronto, The Open University [Milton Keynes] (OU), Department of Pediatrics, Feinberg School of Medicine, Northwestern University [Evanston]-Northwestern University [Evanston]-Northwestern University, University Hospital Basel [Basel], McGill University Health Center [Montreal] (MUHC), Service de génétique [Tours], Centre Hospitalier Régional Universitaire de Tours (CHRU Tours)-Hôpital Bretonneau, Service of Clinical Trials and Databases, Institut de Myologie, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Association française contre les myopathies (AFM-Téléthon)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), CHU Amiens-Picardie, Groupe de Recherche sur l'Analyse Multimodale de la Fonction Cérébrale - UMR INSERM_S 1105 (GRAMFC), Université de Picardie Jules Verne (UPJV)-CHU Amiens-Picardie-Institut National de la Santé et de la Recherche Médicale (INSERM), CHU Trousseau [APHP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), University of Oxford, Schara, Ulrike (Beitragende*r), Koelbel, Heike (Beitragende*r), Rupprich, Katrin (Beitragende*r), Gangfuss, Andrea (Beitragende*r), Della Marina, Adela (Beitragende*r), and Sponemann, Nina (Beitragende*r)
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0301 basic medicine ,Male ,[SDV]Life Sciences [q-bio] ,spinal ,Medizin ,Oligonucleotides ,Spinal Muscular Atrophies of Childhood ,Pediatrics ,law.invention ,Age of Onset ,Child ,Child, Preschool ,Double-Blind Method ,Female ,Humans ,Infant ,Injections, Spinal ,Least-Squares Analysis ,Motor Skills ,Oligonucleotides, Antisense ,Medicine (all) ,0302 clinical medicine ,age of onset ,Randomized controlled trial ,law ,Clinical endpoint ,inglese ,injections ,Motor skill ,motor skills ,General Medicine ,SMA ,Settore MED/26 - NEUROLOGIA ,medicine.anatomical_structure ,female ,Anesthesia ,Nusinersen ,Spinal ,antisense ,preschool ,Injections ,03 medical and health sciences ,least-squares analysis ,Settore MED/39 - NEUROPSICHIATRIA INFANTILE ,Settore MED/41 - ANESTESIOLOGIA ,medicine ,Antisense ,Preschool ,business.industry ,Spinal muscular atrophy ,Motor neuron ,medicine.disease ,030104 developmental biology ,Age of onset ,business ,030217 neurology & neurosurgery - Abstract
Background: Nusinersen is an antisense oligonucleotide drug that modulates pre–messenger RNA splicing of the survival motor neuron 2 (SMN2) gene. It has been developed for the treatment of spinal muscular atrophy (SMA). Methods: We conducted a multicenter, double-blind, sham-controlled, phase 3 trial of nusinersen in 126 children with SMA who had symptom onset after 6 months of age. The children were randomly assigned, in a 2:1 ratio, to undergo intrathecal administration of nusinersen at a dose of 12 mg (nusinersen group) or a sham procedure (control group) on days 1, 29, 85, and 274. The primary end point was the least-squares mean change from baseline in the Hammersmith Functional Motor Scale–Expanded (HFMSE) score at 15 months of treatment; HFMSE scores range from 0 to 66, with higher scores indicating better motor function. Secondary end points included the percentage of children with a clinically meaningful increase from baseline in the HFMSE score (≥3 points), an outcome that indicates improvement in at least two motor skills. Results: In the prespecified interim analysis, there was a least-squares mean increase from baseline to month 15 in the HFMSE score in the nusinersen group (by 4.0 points) and a least-squares mean decrease in the control group (by –1.9 points), with a significant between-group difference favoring nusinersen (least-squares mean difference in change, 5.9 points; 95% confidence interval, 3.7 to 8.1; P Conclusions: Among children with later-onset SMA, those who received nusinersen had significant and clinically meaningful improvement in motor function as compared with those in the control group. (Funded by Biogen and Ionis Pharmaceuticals; CHERISH ClinicalTrials.gov number, NCT02292537. opens in new tab.)
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- 2018
35. Delineating the neurological phenotype in children with defects in the ECHS1 or HIBCH gene.
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Marti‐Sanchez, Laura, Baide‐Mairena, Heidy, Marcé‐Grau, Anna, Pons, Roser, Skouma, Anastasia, López‐Laso, Eduardo, Sigatullina, Maria, Rizzo, Cristiano, Semeraro, Michela, Martinelli, Diego, Carrozzo, Rosalba, Dionisi‐Vici, Carlo, González‐Gutiérrez‐Solana, Luis, Correa‐Vela, Marta, Ortigoza‐Escobar, Juan Dario, Sánchez‐Montañez, Ángel, Vazquez, Élida, Delgado, Ignacio, Aguilera‐Albesa, Sergio, and Yoldi, María Eugenia
- Abstract
The neurological phenotype of 3‐hydroxyisobutyryl‐CoA hydrolase (HIBCH) and short‐chain enoyl‐CoA hydratase (SCEH) defects is expanding and natural history studies are necessary to improve clinical management. From 42 patients with Leigh syndrome studied by massive parallel sequencing, we identified five patients with SCEH and HIBCH deficiency. Fourteen additional patients were recruited through collaborations with other centres. In total, we analysed the neurological features and mutation spectrum in 19 new SCEH/HIBCH patients. For natural history studies and phenotype to genotype associations we also included 70 previously reported patients. The 19 newly identified cases presented with Leigh syndrome (SCEH, n = 11; HIBCH, n = 6) and paroxysmal dystonia (SCEH, n = 2). Basal ganglia lesions (18 patients) were associated with small cysts in the putamen/pallidum in half of the cases, a characteristic hallmark for diagnosis. Eighteen pathogenic variants were identified, 11 were novel. Among all 89 cases, we observed a longer survival in HIBCH compared to SCEH patients, and in HIBCH patients carrying homozygous mutations on the protein surface compared to those with variants inside/near the catalytic region. The SCEH p.(Ala173Val) change was associated with a milder form of paroxysmal dystonia triggered by increased energy demands. In a child harbouring SCEH p.(Ala173Val) and the novel p.(Leu123Phe) change, an 83.6% reduction of the protein was observed in fibroblasts. The SCEH and HIBCH defects in the catabolic valine pathway were a frequent cause of Leigh syndrome in our cohort. We identified phenotype and genotype associations that may help predict outcome and improve clinical management. [ABSTRACT FROM AUTHOR]
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- 2021
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36. Thiamine Deficiency in Childhood with Attention to Genetic Causes: Survival and Outcome Predictors
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Ortigoza-Escobar, Juan Dario, Alfadhel, Majid, Molero-Luis, Marta, Darin, Niklas, Spiegel, Ronen, de Coo, Irenaeus F., Gerards, Mike, Taylor, Robert W., Artuch, Rafael, Nashabat, Marwan, Rodriguez-Pombo, Pilar, Tabarki, Brahim, Perez-Duenas, Belen, Neurology, Maastricht Centre for Systems Biology, and RS: FHML MaCSBio
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AUTISTIC-CHILD ,BASAL GANGLIA DISEASE ,CELL TRANSPLANTATION ,TRANSPORTER-2 DEFICIENCY ,BIOTIN ,LEIGH-SYNDROME ,MITOCHONDRIAL DISEASE ,EXOME SEQUENCING REVEALS ,PYROPHOSPHOKINASE DEFICIENCY ,WERNICKE ENCEPHALOPATHY - Abstract
Primary and secondary conditions leading to thiamine deficiency have overlapping features in children, presenting with acute episodes of encephalopathy, bilateral symmetric brain lesions, and high excretion of organic acids that are specific of thiamine-dependent mitochondrial enzymes, mainly lactate, alpha-ketoglutarate, and branched chain keto-acids. Undiagnosed and untreated thiamine deficiencies are often fatal or lead to severe sequelae. Herein, we describe the clinical and genetic characterization of 79 patients with inherited thiamine defects causing encephalopathy in childhood, identifying outcome predictors in patients with pathogenic SLC19A3 variants, the most common genetic etiology. We propose diagnostic criteria that will aid clinicians to establish a faster and accurate diagnosis so that early vitamin supplementation is considered.
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- 2017
37. Targeted next generation sequencing in patients with infantile bilateral striatal necrosis
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Ortigoza-Escobar, Juan Dario, primary, Marti-Sanchez, Laura, additional, Molero-Luis, Marta, additional, Aviles, Carles, additional, Baide, Heidy, additional, Muchart, Jordi, additional, Rebollo, Monica, additional, Crow, Yannick J., additional, Cabrera-Lopez, J.C., additional, Madruga-Garrido, Marcos, additional, Alonso-Luengo, Olga, additional, Quijada-Fraile, Pilar, additional, Martin-Hernandez, Elena, additional, Garcia-Silva, Maria Teresa, additional, Cerisola, Alfredo, additional, Velazquez-Fragua, Ramon, additional, Schuler, Elisabeth, additional, Lopez-Laso, Eduardo, additional, Gutierrez Solana, L.G., additional, and Perez-Dueñas, Belen, additional
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- 2017
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38. Correction: A new blood DNA methylation signature for Koolen-de Vries syndrome: Classification of missense KANSL1variants and comparison to fibroblast cells
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Awamleh, Zain, Choufani, Sanaa, Wu, Wendy, Rots, Dmitrijs, Dingemans, Alexander J. M., Nadif Kasri, Nael, Boronat, Susana, Ibañez-Mico, Salvador, Cuesta Herraiz, Laura, Ferrer, Irene, Martínez Carrascal, Antonio, Pérez-Jurado, Luis A., Aznar Lain, Gemma, Ortigoza-Escobar, Juan Dario, de Vries, Bert B. A., Koolen, David A., and Weksberg, Rosanna
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- 2024
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39. Broadening the clinical spectrum: molecular mechanisms and new phenotypes of ANO3-dystonia.
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Ousingsawat J, Talbi K, Gómez-Martín H, Koy A, Fernández-Jaén A, Tekgül H, Serdaroğlu E, Schreiber R, Ortigoza-Escobar JD, and Kunzelmann K
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- Humans, Male, Female, Child, Child, Preschool, HEK293 Cells, Mutation, Pedigree, Phospholipid Transfer Proteins genetics, Phospholipid Transfer Proteins metabolism, Anoctamins genetics, Phenotype, Dystonia genetics
- Abstract
Anoctamin 3 (ANO3) belongs to a family of transmembrane proteins that form phospholipid scramblases and ion channels. A large number of ANO3 variants were identified as the cause of craniocervical dystonia, but the underlying pathogenic mechanisms remain obscure. It was suggested that ANO3 variants may dysregulate intracellular Ca2+ signalling, as variants in other Ca2+ regulating proteins like hippocalcin were also identified as a cause of dystonia. In this study, we conducted a comprehensive evaluation of the clinical, radiological and molecular characteristics of four individuals from four families who carried heterozygous variants in ANO3. The median age at follow-up was 6.6 years (ranging from 3.8 to 8.7 years). Three individuals presented with hypotonia and motor developmental delay. Two patients exhibited generalized progressive dystonia, while one patient presented with paroxysmal dystonia. Additionally, another patient exhibited early dyskinetic encephalopathy. One patient underwent bipallidal deep brain stimulation (DBS) and showed a mild but noteworthy response, while another patient is currently being considered for DBS treatment. Neuroimaging analysis of brain MRI studies did not reveal any specific abnormalities. The molecular spectrum included two novel ANO3 variants (V561L and S116L) and two previously reported ANO3 variants (A599D and S651N). As anoctamins are suggested to affect intracellular Ca2+ signals, we compared Ca2+ signalling and activation of ion channels in cells expressing wild-type ANO3 and cells expressing anoctamin variants. Novel V561L and S116L variants were compared with previously reported A599D and S651N variants and with wild-type ANO3 expressed in fibroblasts isolated from patients or when overexpressed in HEK293 cells. We identified ANO3 as a Ca2+-activated phospholipid scramblase that also conducts ions. Impaired Ca2+ signalling and compromised activation of Ca2+-dependent K+ channels were detected in cells expressing ANO3 variants. In the brain striatal cells of affected patients, impaired activation of KCa3.1 channels due to compromised Ca2+ signals may lead to depolarized membrane voltage and neuronal hyperexcitability and may also lead to reduced cellular viability, as shown in the present study. In conclusion, our study reveals the association between ANO3 variants and paroxysmal dystonia, representing the first reported link between these variants and this specific dystonic phenotype. We demonstrate that ANO3 functions as a Ca2+-activated phospholipid scramblase and ion channel; cells expressing ANO3 variants exhibit impaired Ca2+ signalling and compromised activation of Ca2+-dependent K+ channels. These findings provide a mechanism for the observed clinical manifestations and highlight the importance of ANO3 for neuronal excitability and cellular viability., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)
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- 2024
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40. A new blood DNA methylation signature for Koolen-de Vries syndrome: Classification of missense KANSL1 variants and comparison to fibroblast cells.
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Awamleh Z, Choufani S, Wu W, Rots D, Dingemans AJM, Nadif Kasri N, Boronat S, Ibañez-Mico S, Cuesta Herraiz L, Ferrer I, Martínez Carrascal A, Pérez-Jurado LA, Aznar Lain G, Ortigoza-Escobar JD, de Vries BBA, Koolen DA, and Weksberg R
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- Humans, Chromosomes, Human, Pair 17, DNA Methylation, Genes, Regulator, Abnormalities, Multiple genetics, Chromosome Deletion, Intellectual Disability genetics, Intellectual Disability diagnosis
- Abstract
Pathogenic variants in KANSL1 and 17q21.31 microdeletions are causative of Koolen-de Vries syndrome (KdVS), a neurodevelopmental syndrome with characteristic facial dysmorphia. Our previous work has shown that syndromic conditions caused by pathogenic variants in epigenetic regulatory genes have identifiable patterns of DNA methylation (DNAm) change: DNAm signatures or episignatures. Given the role of KANSL1 in histone acetylation, we tested whether variants underlying KdVS are associated with a DNAm signature. We profiled whole-blood DNAm for 13 individuals with KANSL1 variants, four individuals with 17q21.31 microdeletions, and 21 typically developing individuals, using Illumina's Infinium EPIC array. In this study, we identified a robust DNAm signature of 456 significant CpG sites in 8 individuals with KdVS, a pattern independently validated in an additional 7 individuals with KdVS. We also demonstrate the diagnostic utility of the signature and classify two KANSL1 VUS as well as four variants in individuals with atypical clinical presentation. Lastly, we investigated tissue-specific DNAm changes in fibroblast cells from individuals with KdVS. Collectively, our findings contribute to the understanding of the epigenetic landscape related to KdVS and aid in the diagnosis and classification of variants in this structurally complex genomic region., (© 2024. The Author(s).)
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- 2024
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41. Variability in Phelan-McDermid Syndrome in a Cohort of 210 Individuals.
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Nevado J, García-Miñaúr S, Palomares-Bralo M, Vallespín E, Guillén-Navarro E, Rosell J, Bel-Fenellós C, Mori MÁ, Milá M, Del Campo M, Barrúz P, Santos-Simarro F, Obregón G, Orellana C, Pachajoa H, Tenorio JA, Galán E, Cigudosa JC, Moresco A, Saleme C, Castillo S, Gabau E, Pérez-Jurado L, Barcia A, Martín MS, Mansilla E, Vallcorba I, García-Murillo P, Cammarata-Scalisi F, Gonçalves Pereira N, Blanco-Lago R, Serrano M, Ortigoza-Escobar JD, Gener B, Seidel VA, Tirado P, and Lapunzina P
- Abstract
Phelan-McDermid syndrome (PMS, OMIM# 606232) results from either different rearrangements at the distal region of the long arm of chromosome 22 (22q13.3) or pathogenic sequence variants in the SHANK3 gene. SHANK3 codes for a structural protein that plays a central role in the formation of the postsynaptic terminals and the maintenance of synaptic structures. Clinically, patients with PMS often present with global developmental delay, absent or severely delayed speech, neonatal hypotonia, minor dysmorphic features, and autism spectrum disorders (ASD), among other findings. Here, we describe a cohort of 210 patients with genetically confirmed PMS. We observed multiple variant types, including a significant number of small deletions (<0.5 Mb, 64/189) and SHANK3 sequence variants (21 cases). We also detected multiple types of rearrangements among microdeletion cases, including a significant number with post-zygotic mosaicism (9.0%, 17/189), ring chromosome 22 (10.6%, 20/189), unbalanced translocations ( de novo or inherited, 6.4%), and additional rearrangements at 22q13 (6.3%, 12/189) as well as other copy number variations in other chromosomes, unrelated to 22q deletions (14.8%, 28/189). We compared the clinical and genetic characteristics among patients with different sizes of deletions and with SHANK3 variants . Our findings suggest that SHANK3 plays an important role in this syndrome but is probably not uniquely responsible for all the spectrum features in PMS. We emphasize that only an adequate combination of different molecular and cytogenetic approaches allows an accurate genetic diagnosis in PMS patients. Thus, a diagnostic algorithm is proposed., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Nevado, García-Miñaúr, Palomares-Bralo, Vallespín, Guillén-Navarro, Rosell, Bel-Fenellós, Mori, Milá, Campo, Barrúz, Santos-Simarro, Obregón, Orellana, Pachajoa, Tenorio, Galán, Cigudosa, Moresco, Saleme, Castillo, Gabau, Pérez-Jurado, Barcia, Martín, Mansilla, Vallcorba, García-Murillo, Cammarata-Scalisi, Gonçalves Pereira, Blanco-Lago, Serrano, Ortigoza-Escobar, Gener, Seidel, Tirado, Lapunzina and Spanish PMS Working Group.)
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- 2022
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42. Genetic, Phenotypic, and Interferon Biomarker Status in ADAR1-Related Neurological Disease.
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Rice GI, Kitabayashi N, Barth M, Briggs TA, Burton ACE, Carpanelli ML, Cerisola AM, Colson C, Dale RC, Danti FR, Darin N, De Azua B, De Giorgis V, De Goede CGL, Desguerre I, De Laet C, Eslahi A, Fahey MC, Fallon P, Fay A, Fazzi E, Gorman MP, Gowrinathan NR, Hully M, Kurian MA, Leboucq N, Lin JS, Lines MA, Mar SS, Maroofian R, Martí-Sanchez L, McCullagh G, Mojarrad M, Narayanan V, Orcesi S, Ortigoza-Escobar JD, Pérez-Dueñas B, Petit F, Ramsey KM, Rasmussen M, Rivier F, Rodríguez-Pombo P, Roubertie A, Stödberg TI, Toosi MB, Toutain A, Uettwiller F, Ulrick N, Vanderver A, Waldman A, Livingston JH, and Crow YJ
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- Adolescent, Adult, Autoimmune Diseases of the Nervous System diagnostic imaging, Biomarkers metabolism, Child, Child, Preschool, Female, Humans, Infant, Male, Mutation, Nervous System Malformations diagnostic imaging, Phenotype, Young Adult, Adenosine Deaminase genetics, Autoimmune Diseases of the Nervous System genetics, Autoimmune Diseases of the Nervous System immunology, Interferon Type I metabolism, Nervous System Malformations genetics, Nervous System Malformations immunology, RNA-Binding Proteins genetics
- Abstract
We investigated the genetic, phenotypic, and interferon status of 46 patients from 37 families with neurological disease due to mutations in ADAR1 . The clinicoradiological phenotype encompassed a spectrum of Aicardi-Goutières syndrome, isolated bilateral striatal necrosis, spastic paraparesis with normal neuroimaging, a progressive spastic dystonic motor disorder, and adult-onset psychological difficulties with intracranial calcification. Homozygous missense mutations were recorded in five families. We observed a p.Pro193Ala variant in the heterozygous state in 22 of 23 families with compound heterozygous mutations. We also ascertained 11 cases from nine families with a p.Gly1007Arg dominant-negative mutation, which occurred de novo in four patients, and was inherited in three families in association with marked phenotypic variability. In 50 of 52 samples from 34 patients, we identified a marked upregulation of type I interferon-stimulated gene transcripts in peripheral blood, with a median interferon score of 16.99 (interquartile range [IQR]: 10.64-25.71) compared with controls (median: 0.93, IQR: 0.57-1.30). Thus, mutations in ADAR1 are associated with a variety of clinically distinct neurological phenotypes presenting from early infancy to adulthood, inherited either as an autosomal recessive or dominant trait. Testing for an interferon signature in blood represents a useful biomarker in this context., Competing Interests: Authors' Contributions: J.H.L. and Y.J.C. collated and reviewed all clinical and radiological data. G.I.R. performed quantitative PCR analysis, with assistance from N.K., M.B., T.A.B., A.C.E.B., M.L.C., A.M.C., C.C., R.C.D., F.R.D., N.D., B. De A., V. De G., C.G.E.L. De G., I.D., C De L., A.E., M.C.F., P.F., A.F., E.F., M.P.G., N.R.G., M.H., M.A.K., N.L., J.-P.S.-M.L., M.A.L., S.S.M., R.M., L.M.-S., G.M., M.M., V.N., S.O., J.D.O.-E., B.P.-D., F.P., K.M.R., M.R., F.R., P.R.-P., A.R., T.I.S., M.B.T., A.T., F.U., N.U., A.V., and A.W. provided clinical samples and critically reviewed clinical and immunological patient data. Y.J.C. conceived the study and wrote the initial draft with the assistance of G.I.R. All authors critically reviewed the article and agreed to its publication. Financial Disclosure None of the authors have any financial disclosure to report., (Georg Thieme Verlag KG Stuttgart · New York.)
- Published
- 2017
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