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8. Brain expression profiles of two SCN1A antisense RNAs in children and adolescents with epilepsy

Author

Schneider Marius Frederik, Vogt Miriam, Scheuermann Johanna, Müller Veronika, Fischer-Hentrich Antje H. L., Kremer Thomas, Lugert Sebastian, Metzger Friedrich, Kudernatsch Manfred, Kluger Gerhard, Hartlieb Till, Noachtar Soheyl, Vollmar Christian, Kunz Mathias, Tonn Jörg Christian, Coras Roland, Blümcke Ingmar, Pace Claudia, Heinen Florian, Klein Christoph, Potschka Heidrun, and Borggraefe Ingo

Subjects
dravet syndrome, long non coding rna, regulatory rna, precision medicine, epilepsy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Heterozygous mutations within the voltage-gated sodium channel α subunit (SCN1A) are responsible for the majority of cases of Dravet syndrome (DS), a severe developmental and epileptic encephalopathy. Development of novel therapeutic approaches is mandatory in order to directly target the molecular consequences of the genetic defect. The aim of the present study was to investigate whether cis-acting long non-coding RNAs (lncRNAs) of SCN1A are expressed in brain specimens of children and adolescent with epilepsy as these molecules comprise possible targets for precision-based therapy approaches.

Published
2024
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11. Epilepsy in patients with GRIN2A alterations: Genetics, neurodevelopment, epileptic phenotype and response to anticonvulsive drugs

Author

von Stülpnagel, C., primary, Ensslen, M., additional, Møller, R.S., additional, Pal, D.K., additional, Masnada, S., additional, Veggiotti, P., additional, Piazza, E., additional, Dreesmann, M., additional, Hartlieb, T., additional, Herberhold, T., additional, Hughes, E., additional, Koch, M., additional, Kutzer, C., additional, Hoertnagel, K., additional, Nitanda, J., additional, Pohl, M., additional, Rostásy, K., additional, Haack, T.B., additional, Stöhr, K., additional, Kluger, G., additional, and Borggraefe, I., additional

Published
2017
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21. "Everything but motor (EBM)" – subtotal hemispherectomy sparing the primary sensori-motor region in children with hemispheric epilepsies but without hemiparesis

Author

Pascher, B, primary, Pieper, T, additional, Kessler-Uberti, S, additional, Eitel, H, additional, Getzinger, T, additional, Hartlieb, T, additional, Staudt, M, additional, Bluemcke, I, additional, Kudernatsch, M, additional, Winkler, PA, additional, Kolodziejczyk, D, additional, and Holthausen, H, additional

Published
2011
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22. 12 years of pediatric epilepsy surgery – The Vogtareuth experience

Author

Keßler-Uberti, S, primary, Pieper, T, additional, Eitel, H, additional, Pascher, B, additional, Hartlieb, T, additional, Getzinger, T, additional, Karlmeier, A, additional, Kudernatsch, M, additional, Winkler, PA, additional, Kolodziejczyk, D, additional, Blümcke, I, additional, Staudt, M, additional, and Holthausen, H, additional

Published
2011
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23. Pediatric epilepsy surgery in patients with bilateral or extended brain lesions results of 22 patients with a primary incomplete resection

Author

Pieper, T, primary, Kudernatsch, M, additional, Kessler-Uberti, S, additional, Eitel, H, additional, Pascher, B, additional, Getzinger, T, additional, Hartlieb, T, additional, Blümcke, I, additional, Kolodziejczyk, D, additional, Winkler, PA, additional, Staudt, M, additional, and Holthausen, H, additional

Published
2011
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24. Characterization of the Epileptogenic Phenotype and Response to Antiseizure Medications in Lissencephaly Patients.

Author

Proepper CR, Schuetz SM, Schwarz LM, Au KV, Bast T, Beaud N, Borggraefe I, Bosch F, Budde J, Busse M, Chung J, Debus O, Diepold K, Fries T, Gersdorff GV, Haeussler M, Hahn A, Hartlieb T, Heiming R, Herkenrath P, Kluger G, Kreth JH, Kurlemann G, Moeller P, Morris-Rosendahl DJ, Panzer A, Philippi H, Ruegner S, Toepfer C, Vieker S, Wiemer-Kruel A, Winter A, Schuierer G, Hehr U, and Geis T

Abstract

Background:  Patients with lissencephaly typically present with severe psychomotor retardation and drug-resistant seizures. The aim of this study was to characterize the epileptic phenotype in a genotypically and radiologically well-defined patient cohort and to evaluate the response to antiseizure medication (ASM). Therefore, we retrospectively evaluated 47 patients of five genetic forms ( LIS1/PAFAH1B1 , DCX , DYNC1H1 , TUBA1A , TUBG1 ) using family questionnaires, standardized neuropediatric assessments, and patients' medical reports., Results:  All but two patients were diagnosed with epilepsy. Median age at seizure onset was 6 months (range: 2.1-42.0), starting with epileptic spasms in 70%. Standard treatment protocols with hormonal therapy (ACTH or corticosteroids) and/or vigabatrin were the most effective approach for epileptic spasms, leading to seizure control in 47%. Seizures later in the disease course were most effectively treated with valproic acid and lamotrigine, followed by vigabatrin and phenobarbital, resulting in seizure freedom in 20%. Regarding psychomotor development, lissencephaly patients presenting without epileptic spasms were significantly more likely to reach various developmental milestones compared to patients with spasms., Conclusion:  Classic lissencephaly is highly associated with drug-resistant epilepsy starting with epileptic spasms in most patients. The standard treatment protocols for infantile epileptic spasms syndrome lead to freedom from seizures in around half of the patients. Due to the association of epileptic spasms with an unfavorable course of psychomotor development, early and reliable diagnosis and treatment of spasms should be pursued. For epilepsies occurring later in childhood, ASM with valproic acid and lamotrigine, followed by vigabatrin and phenobarbital, appears to be most effective., Competing Interests: None declared., (Thieme. All rights reserved.)

Published
2024
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25. Subacute Degeneration of Fibers After Vertical Parasagittal Hemispherotomy.

Author

Hittinger M, Hartlieb T, Heiland DH, Heiland P, Pieper T, Staudt M, Berlis A, Kudernatsch M, and Mader I

Abstract

Purpose: After vertical parasagittal hemispherotomy a restricted diffusion is often seen ipsilaterally and even distant from the adjacent resection margin. This retrospective cohort study analyses the anatomic site and the time course of the diffusion restriction after vertical parasagittal hemispherotomy., Methods: Fifty-nine patients were included into this study, all of them having had one pre-operative and at least one post-operative MRI, including diffusion imaging at b‑values of 0 and 1000 s/mm 2 with a calculated ADC., Results: Diffusion restriction occurred exclusively on the operated site in all patients. In the basal ganglia, diffusion restriction was present in 37 of 38 patients at the first postoperative day with a duration of 38 days. In the midbrain, the posterior limb of the internal capsule and the thalamus, a restricted diffusion became postoperatively prominent at day 9 in all three localizations, with a duration of 36, 34 and 36 days, respectively. The incidence of thalamic lesions was lower if a preoperative damage had occurred., Conclusion: The restricted diffusion in the basal ganglia resembles direct effects of the operation at its edges, whereas the later appearing diffusion restriction in the midbrain and the posterior limb of the internal capsule rather belong to a degeneration of the descending fibers being transected by the hemispherotomy in the sense of a Wallerian degeneration. The presence of preoperative hemispheric lesions influences the development of diffusion restriction at subacute fiber degeneration., (© 2024. The Author(s).)

Published
2024
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26. Deep histopathology genotype-phenotype analysis of focal cortical dysplasia type II differentiates between the GATOR1-altered autophagocytic subtype IIa and MTOR-altered migration deficient subtype IIb.

Author

Honke J, Hoffmann L, Coras R, Kobow K, Leu C, Pieper T, Hartlieb T, Bien CG, Woermann F, Cloppenborg T, Kalbhenn T, Gaballa A, Hamer H, Brandner S, Rössler K, Dörfler A, Rampp S, Lemke JR, Baldassari S, Baulac S, Lal D, Nürnberg P, and Blümcke I

Subjects
Child, Humans, TOR Serine-Threonine Kinases genetics, GTPase-Activating Proteins genetics, Genotype, Focal Cortical Dysplasia, Epilepsy genetics, Drug Resistant Epilepsy, Malformations of Cortical Development genetics
Abstract

Focal cortical dysplasia type II (FCDII) is the most common cause of drug-resistant focal epilepsy in children. Herein, we performed a deep histopathology-based genotype-phenotype analysis to further elucidate the clinico-pathological and genetic presentation of FCDIIa compared to FCDIIb. Seventeen individuals with histopathologically confirmed diagnosis of FCD ILAE Type II and a pathogenic variant detected in brain derived DNA whole-exome sequencing or mTOR gene panel sequencing were included in this study. Clinical data were directly available from each contributing centre. Histopathological analyses were performed from formalin-fixed, paraffin-embedded tissue samples using haematoxylin-eosin and immunohistochemistry for NF-SMI32, NeuN, pS6, p62, and vimentin. Ten individuals carried loss-of-function variants in the GATOR1 complex encoding genes DEPDC5 (n = 7) and NPRL3 (n = 3), or gain-of-function variants in MTOR (n = 7). Whereas individuals with GATOR1 variants only presented with FCDIIa, i.e., lack of balloon cells, individuals with MTOR variants presented with both histopathology subtypes, FCDIIa and FCDIIb. Interestingly, 50% of GATOR1-positive cases showed a unique and predominantly vacuolizing phenotype with p62 immunofluorescent aggregates in autophagosomes. All cases with GATOR1 alterations had neurosurgery in the frontal lobe and the majority was confined to the cortical ribbon not affecting the white matter. This pattern was reflected by subtle or negative MRI findings in seven individuals with GATOR1 variants. Nonetheless, all individuals were seizure-free after surgery except four individuals carrying a DEPDC5 variant. We describe a yet underrecognized genotype-phenotype correlation of GATOR1 variants with FCDIIa in the frontal lobe. These lesions were histopathologically characterized by abnormally vacuolizing cells suggestive of an autophagy-altered phenotype. In contrast, individuals with FCDIIb and brain somatic MTOR variants showed larger lesions on MRI including the white matter, suggesting compromised neural cell migration., (© 2023. The Author(s).)

Published
2023
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27. D-galactose Supplementation for the Treatment of Mild Malformation of Cortical Development with Oligodendroglial Hyperplasia in Epilepsy (MOGHE): A Pilot Trial of Precision Medicine After Epilepsy Surgery.

Author

Aledo-Serrano Á, Valls-Carbó A, Fenger CD, Groeppel G, Hartlieb T, Pascual I, Herraez E, Cabal B, García-Morales I, Toledano R, Budke M, Beltran-Corbellini Á, Baldassari S, Coras R, Kobow K, Herrera DM, Del Barrio A, Dahl HA, Del Pino I, Baulac S, Blumcke I, Møller RS, and Gil-Nagel A

Subjects
Humans, Precision Medicine, Hyperplasia, Pilot Projects, Quality of Life, Seizures, Electroencephalography methods, Galactose, Epilepsy therapy
Abstract

MOGHE is defined as mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy. Approximately half of the patients with histopathologically confirmed MOGHE carry a brain somatic variant in the SLC35A2 gene encoding a UDP-galactose transporter. Previous research showed that D-galactose supplementation results in clinical improvement in patients with a congenital disorder of glycosylation due to germline variants in SLC35A2. We aimed to evaluate the effects of D-galactose supplementation in patients with histopathologically confirmed MOGHE, with uncontrolled seizures or cognitive impairment and epileptiform activity at the EEG after epilepsy surgery (NCT04833322). Patients were orally supplemented with D-galactose for 6 months in doses up to 1.5 g/kg/day and monitored for seizure frequency including 24-h video-EEG recording, cognition and behavioral scores, i.e., WISC, BRIEF-2, SNAP-IV, and SCQ, and quality of life measures, before and 6 months after treatment. Global response was defined by > 50% improvement of seizure frequency and/or cognition and behavior (clinical global impression of "much improved" or better). Twelve patients (aged 5-28 years) were included from three different centers. Neurosurgical tissue samples were available in all patients and revealed a brain somatic variant in SLC35A2 in six patients (non-present in the blood). After 6 months of supplementation, D-galactose was well tolerated with just two patients presenting abdominal discomfort, solved after dose spacing or reduction. There was a 50% reduction or higher of seizure frequency in 3/6 patients, with an improvement at EEG in 2/5 patients. One patient became seizure-free. An improvement of cognitive/behavioral features encompassing impulsivity (mean SNAP-IV - 3.19 [- 0.84; - 5.6]), social communication (mean SCQ - 2.08 [- 0.63; - 4.90]), and executive function (BRIEF-2 inhibit - 5.2 [- 1.23; - 9.2]) was observed. Global responder rate was 9/12 (6/6 in SLC35A2-positive). Our results suggest that supplementation with D-galactose in patients with MOGHE is safe and well tolerated and, although the efficacy data warrant larger studies, it might build a rationale for precision medicine after epilepsy surgery., (© 2023. The American Society for Experimental Neurotherapeutics, Inc.)

Published
2023
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29. Ganglioglioma with adverse clinical outcome and atypical histopathological features were defined by alterations in PTPN11/KRAS/NF1 and other RAS-/MAP-Kinase pathway genes.

Author

Hoffmann L, Coras R, Kobow K, López-Rivera JA, Lal D, Leu C, Najm I, Nürnberg P, Herms J, Harter PN, Bien CG, Kalbhenn T, Müller M, Pieper T, Hartlieb T, Kudernatsch M, Hamer H, Brandner S, Rössler K, Blümcke I, and Jabari S

Subjects
Humans, Mutation genetics, Phenotype, Protein Tyrosine Phosphatase, Non-Receptor Type 11 genetics, Proto-Oncogene Proteins p21(ras) genetics, Genes, ras, MAP Kinase Signaling System, Epilepsy pathology, Ganglioglioma genetics, Ganglioglioma pathology
Abstract

Exome-wide sequencing studies recently described PTPN11 as a novel brain somatic epilepsy gene. In contrast, germline mutations of PTPN11 are known to cause Noonan syndrome, a multisystem disorder characterized by abnormal facial features, developmental delay, and sporadically, also brain tumors. Herein, we performed a deep phenotype-genotype analysis of a comprehensive series of ganglioglioma (GG) with brain somatic alterations of the PTPN11/KRAS/NF1 genes compared to GG with common MAP-Kinase signaling pathway alterations, i.e., BRAFV600E. Seventy-two GG were submitted to whole exome sequencing and genotyping and 84 low grade epilepsy associated tumors (LEAT) to DNA-methylation analysis. In 28 tumours, both analyses were available from the same sample. Clinical data were retrieved from hospital files including disease onset, age at surgery, brain localization, and seizure outcome. A comprehensive histopathology staining panel was available in all cases. We identified eight GG with PTPN11 alterations, copy number variant (CNV) gains of chromosome 12, and the commonality of additional CNV gains in NF1, KRAS, FGFR4 and RHEB, as well as BRAFV600E alterations. Histopathology revealed an atypical glio-neuronal phenotype with subarachnoidal tumor spread and large, pleomorphic, and multinuclear cellular features. Only three out of eight patients with GG and PTPN11/KRAS/NF1 alterations were free of disabling-seizures 2 years after surgery (38% had Engel I). This was remarkably different from our series of GG with only BRAFV600E mutations (85% had Engel I). Unsupervised cluster analysis of DNA methylation arrays separated these tumours from well-established LEAT categories. Our data point to a subgroup of GG with cellular atypia in glial and neuronal cell components, adverse postsurgical outcome, and genetically characterized by complex alterations in PTPN11 and other RAS-/MAP-Kinase and/or mTOR signaling pathways. These findings need prospective validation in clinical practice as they argue for an adaptation of the WHO grading system in developmental, glio-neuronal tumors associated with early onset focal epilepsy., (© 2023. The Author(s).)

Published
2023
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30. The genomic landscape across 474 surgically accessible epileptogenic human brain lesions.

Author

López-Rivera JA, Leu C, Macnee M, Khoury J, Hoffmann L, Coras R, Kobow K, Bhattarai N, Pérez-Palma E, Hamer H, Brandner S, Rössler K, Bien CG, Kalbhenn T, Pieper T, Hartlieb T, Butler E, Genovese G, Becker K, Altmüller J, Niestroj LM, Ferguson L, Busch RM, Nürnberg P, Najm I, Blümcke I, and Lal D

Subjects
Humans, Brain pathology, Genomics, Nucleotides metabolism, Epilepsy pathology, Drug Resistant Epilepsy genetics, Drug Resistant Epilepsy surgery, Drug Resistant Epilepsy metabolism, Malformations of Cortical Development complications, Malformations of Cortical Development genetics, Malformations of Cortical Development metabolism, Epilepsies, Partial metabolism
Abstract

Understanding the exact molecular mechanisms involved in the aetiology of epileptogenic pathologies with or without tumour activity is essential for improving treatment of drug-resistant focal epilepsy. Here, we characterize the landscape of somatic genetic variants in resected brain specimens from 474 individuals with drug-resistant focal epilepsy using deep whole-exome sequencing (>350×) and whole-genome genotyping. Across the exome, we observe a greater number of somatic single-nucleotide variants in low-grade epilepsy-associated tumours (7.92 ± 5.65 single-nucleotide variants) than in brain tissue from malformations of cortical development (6.11 ± 4 single-nucleotide variants) or hippocampal sclerosis (5.1 ± 3.04 single-nucleotide variants). Tumour tissues also had the largest number of likely pathogenic variant carrying cells. low-grade epilepsy-associated tumours had the highest proportion of samples with one or more somatic copy-number variants (24.7%), followed by malformations of cortical development (5.4%) and hippocampal sclerosis (4.1%). Recurring somatic whole chromosome duplications affecting Chromosome 7 (16.8%), chromosome 5 (10.9%), and chromosome 20 (9.9%) were observed among low-grade epilepsy-associated tumours. For germline variant-associated malformations of cortical development genes such as TSC2, DEPDC5 and PTEN, germline single-nucleotide variants were frequently identified within large loss of heterozygosity regions, supporting the recently proposed 'second hit' disease mechanism in these genes. We detect somatic variants in 12 established lesional epilepsy genes and demonstrate exome-wide statistical support for three of these in the aetiology of low-grade epilepsy-associated tumours (e.g. BRAF) and malformations of cortical development (e.g. SLC35A2 and MTOR). We also identify novel significant associations for PTPN11 with low-grade epilepsy-associated tumours and NRAS Q61 mutated protein with a complex malformation of cortical development characterized by polymicrogyria and nodular heterotopia. The variants identified in NRAS are known from cancer studies to lead to hyperactivation of NRAS, which can be targeted pharmacologically. We identify large recurrent 1q21-q44 duplication including AKT3 in association with focal cortical dysplasia type 2a with hyaline astrocytic inclusions, another rare and possibly under-recognized brain lesion. The clinical-genetic analyses showed that the numbers of somatic single-nucleotide variant across the exome and the fraction of affected cells were positively correlated with the age at seizure onset and surgery in individuals with low-grade epilepsy-associated tumours. In summary, our comprehensive genetic screen sheds light on the genome-scale landscape of genetic variants in epileptic brain lesions, informs the design of gene panels for clinical diagnostic screening and guides future directions for clinical implementation of epilepsy surgery genetics., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2023
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31. Clinical Features, Neuropathology, and Surgical Outcome in Patients With Refractory Epilepsy and Brain Somatic Variants in the SLC35A2 Gene.

Author

Barba C, Blumcke I, Winawer MR, Hartlieb T, Kang HC, Grisotto L, Chipaux M, Bien CG, Heřmanovská B, Porter BE, Lidov HGW, Cetica V, Woermann FG, Lopez-Rivera JA, Canoll PD, Mader I, D'Incerti L, Baldassari S, Yang E, Gaballa A, Vogel H, Straka B, Macconi L, Polster T, Grant GA, Krsková L, Shin HJ, Ko A, Crino PB, Krsek P, Lee JH, Lal D, Baulac S, Poduri A, and Guerrini R

Subjects
Humans, Brain diagnostic imaging, Brain surgery, Brain pathology, Seizures pathology, Retrospective Studies, Treatment Outcome, Electroencephalography, Drug Resistant Epilepsy genetics, Drug Resistant Epilepsy surgery, Drug Resistant Epilepsy pathology, Epilepsy genetics, Epilepsy surgery, Epilepsy diagnosis
Abstract

Background and Objectives: The SLC35A2 gene, located at chromosome Xp11.23, encodes for a uridine diphosphate-galactose transporter. We describe clinical, genetic, neuroimaging, EEG, and histopathologic findings and assess possible predictors of postoperative seizure and cognitive outcome in 47 patients with refractory epilepsy and brain somatic SLC35A2 gene variants., Methods: This is a retrospective multicenter study where we performed a descriptive analysis and classical hypothesis testing. We included the variables of interest significantly associated with the outcomes in the generalized linear models., Results: Two main phenotypes were associated with brain somatic SLC35A2 variants: (1) early epileptic encephalopathy (EE, 39 patients) with epileptic spasms as the predominant seizure type and moderate to severe intellectual disability and (2) drug-resistant focal epilepsy (DR-FE, 8 patients) associated with normal/borderline cognitive function and specific neuropsychological deficits. Brain MRI was abnormal in all patients with EE and in 50% of those with DR-FE. Histopathology review identified mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy in 44/47 patients and was inconclusive in 3. The 47 patients harbored 42 distinct mosaic SLC35A2 variants, including 14 (33.3%) missense, 13 (30.9%) frameshift, 10 (23.8%) nonsense, 4 (9.5%) in-frame deletions/duplications, and 1 (2.4%) splicing variant. Variant allele frequencies (VAFs) ranged from 1.4% to 52.6% (mean VAF: 17.3 ± 13.5). At last follow-up (35.5 ± 21.5 months), 30 patients (63.8%) were in Engel Class I, of which 26 (55.3%) were in Class IA. Cognitive performances remained unchanged in most patients after surgery. Regression analyses showed that the probability of achieving both Engel Class IA and Class I outcomes, adjusted by age at seizure onset, was lower when the duration of epilepsy increased and higher when postoperative EEG was normal or improved. Lower brain VAF was associated with improved postoperative cognitive outcome in the analysis of associations, but this finding was not confirmed in regression analyses., Discussion: Brain somatic SLC35A2 gene variants are associated with 2 main clinical phenotypes, EE and DR-FE, and a histopathologic diagnosis of MOGHE. Additional studies will be needed to delineate any possible correlation between specific genetic variants, mutational load in the epileptogenic tissue, and surgical outcomes., (© 2022 American Academy of Neurology.)

Published
2023
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32. [Hemispherotomy in pediatric epilepsy surgery-Surgical, epileptological and functional aspects].

Author

Hartlieb T, Kudernatsch M, and Staudt M

Subjects
Child, Electroencephalography, Humans, Seizures, Treatment Outcome, Epilepsy diagnosis, Epilepsy surgery, Hemispherectomy
Abstract

Hemispherotomies represent a major part of surgical interventions for epilepsy in childhood (16-21%). The anatomical resection has been replaced by minimally invasive disconnection techniques with lower perioperative mortality and fewer postoperative complications. Today the procedure is not only carried out from the lateral aspect via the Sylvian fissure/insula but also via a vertical parasagittal approach. Depending on the publication, hemispherotomy leads to freedom from postoperative seizures in 60-90% of patients. Despite changes in the surgical technique, disturbances of the cerebrospinal fluid circulation continue to be the main complication in 5-15% of cases. Hemispheric epileptogenic lesions usually lead to early onset and difficult to treat epilepsy in childhood. These epilepsies are characterized by a high frequency of seizures and propagation of epileptic discharges to the healthy hemisphere. The aim of a hemispherotomy is, in addition to postoperative freedom from seizures, the complete disconnection of the affected hemisphere. When deciding on a hemispherotomy, the expected functional consequences play a major role in addition to epileptological aspects. In the case of deficits already present preoperatively (hemianopia, hemiparesis) or reorganization of functions in the contralesional hemisphere (language), no new deficits are to be expected from the operation. In terms of cognition, a hemispherotomy can improve function by releasing the neuroplastic potential of the healthy hemisphere. In order to keep the negative and often irreversible effects of epilepsy as low as possible and to be able to use as much potential for neuroplasticity of the healthy hemisphere as possible, surgery should be considered as early as possible., (© 2021. Springer Medizin Verlag GmbH, ein Teil von Springer Nature.)

Published
2022
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33. Multilobar unilateral hypoplasia with emphasis on the posterior quadrant and severe epilepsy in children with FCD ILAE Type 1A.

Author

Holthausen H, Coras R, Tang Y, Bai L, Wang I, Pieper T, Kudernatsch M, Hartlieb T, Staudt M, Winkler P, Hofer W, Jabari S, Kobow K, and Blumcke I

Subjects
Child, Preschool, Electroencephalography, Humans, Magnetic Resonance Imaging, Retrospective Studies, Seizures surgery, Treatment Outcome, Epilepsy surgery, Malformations of Cortical Development complications, Malformations of Cortical Development diagnostic imaging, Malformations of Cortical Development genetics
Abstract

Objective: Focal cortical dysplasia (FCD) Type 1 and its three subtypes have yet not been fully characterized at the clinical, anatomopathological, and molecular level (International League Against Epilepsy [ILAE] FCD classification from 2011). We aimed to describe the clinical phenotype of patients with histopathologically confirmed FCD1A obtained from a single epilepsy center between 2002 and 2016., Methods: Medical records were retrieved from the hospital's archive. Results from electroencephalography (EEG) video recordings, neuroimaging, and histopathology were reevaluated. Magnetic resonance imaging (MRI) post-processing was retrospectively performed in nine patients. DNA methylation studies were carried out from archival surgical brain tissue in 11 patients., Results: Nineteen children with a histopathological diagnosis of FCD1A were included. The average onset of epilepsy was 0.9 years (range 0.2-10 years). All children had severe cognitive impairment and one third had mild motor deficits, yet fine finger movements were preserved in all patients. All patients had daily seizures, being drug resistant from disease onset. Interictal electroencephalography revealed bilateral multi-regional epileptiform discharges. Interictal status epilepticus was observed in 8 and countless subclinical seizures in 11 patients. Regional continuous irregular slow waves were of higher lateralizing and localizing yield than spikes. Posterior background rhythms were normal in 16 of 19 children. Neuroimaging showed unilateral multilobar hypoplasia and increased T2-FLAIR signals of the white matter in 18 of 19 patients. All children underwent tailored multilobar resections, with seizure freedom achieved in 47% (Engel class I). There was no case with frontal involvement without involvement of the posterior quadrant by MRI and histopathology. DNA methylation profiling distinguished FCD1A samples from all other epilepsy specimens and controls., Significance: We identified a cohort of young children with drug resistance from seizure onset, bad EEG with posterior emphasis, lack of any focal neurological deficits but severe cognitive impairment, subtle hypoplasia of the epileptogenic area on MRI, and histopathologically defined and molecularly confirmed by DNA methylation analysis as FCD ILAE Type 1A., (© 2021 International League Against Epilepsy.)

Published
2022
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34. DNA methylation-based classification of malformations of cortical development in the human brain.

Author

Jabari S, Kobow K, Pieper T, Hartlieb T, Kudernatsch M, Polster T, Bien CG, Kalbhenn T, Simon M, Hamer H, Rössler K, Feucht M, Mühlebner A, Najm I, Peixoto-Santos JE, Gil-Nagel A, Delgado RT, Aledo-Serrano A, Hou Y, Coras R, von Deimling A, and Blümcke I

Subjects
Adolescent, Adult, Child, Child, Preschool, Epilepsy etiology, Female, Humans, Infant, Male, Malformations of Cortical Development genetics, Middle Aged, Retrospective Studies, Young Adult, DNA Methylation, Deep Learning, Malformations of Cortical Development classification, Malformations of Cortical Development diagnosis
Abstract

Malformations of cortical development (MCD) comprise a broad spectrum of structural brain lesions frequently associated with epilepsy. Disease definition and diagnosis remain challenging and are often prone to arbitrary judgment. Molecular classification of histopathological entities may help rationalize the diagnostic process. We present a retrospective, multi-center analysis of genome-wide DNA methylation from human brain specimens obtained from epilepsy surgery using EPIC 850 K BeadChip arrays. A total of 308 samples were included in the study. In the reference cohort, 239 formalin-fixed and paraffin-embedded (FFPE) tissue samples were histopathologically classified as MCD, including 12 major subtype pathologies. They were compared to 15 FFPE samples from surgical non-MCD cortices and 11 FFPE samples from post-mortem non-epilepsy controls. We applied three different statistical approaches to decipher the DNA methylation pattern of histopathological MCD entities, i.e., pairwise comparison, machine learning, and deep learning algorithms. Our deep learning model, which represented a shallow neuronal network, achieved the highest level of accuracy. A test cohort of 43 independent surgical samples from different epilepsy centers was used to test the precision of our DNA methylation-based MCD classifier. All samples from the test cohort were accurately assigned to their disease classes by the algorithm. These data demonstrate DNA methylation-based MCD classification suitability across major histopathological entities amenable to epilepsy surgery and age groups and will help establish an integrated diagnostic classification scheme for epilepsy-associated MCD., (© 2021. The Author(s).)

Published
2022
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35. Dysmorphic neurons as cellular source for phase-amplitude coupling in Focal Cortical Dysplasia Type II.

Author

Rampp S, Rössler K, Hamer H, Illek M, Buchfelder M, Doerfler A, Pieper T, Hartlieb T, Kudernatsch M, Koelble K, Peixoto-Santos JE, Blümcke I, and Coras R

Subjects
Adolescent, Adult, Child, Child, Preschool, Epilepsy diagnostic imaging, Female, Humans, Male, Malformations of Cortical Development, Group I diagnostic imaging, Neurons pathology, Pilot Projects, Proof of Concept Study, Retrospective Studies, Electrodes, Implanted, Electroencephalography methods, Epilepsy physiopathology, Epilepsy surgery, Malformations of Cortical Development, Group I physiopathology, Malformations of Cortical Development, Group I surgery, Neurons physiology
Abstract

Objective: Reliable localization of the epileptogenic zone is necessary for successful epilepsy surgery. Neurophysiological biomarkers include ictal onsets and interictal spikes. Furthermore, the epileptic network shows oscillations with potential localization value and pathomechanistic implications. The cellular origin of such markers in invasive EEG in vivo remains to be clarified., Methods: In the presented pilot study, surgical brain samples and invasive EEG recordings of seven patients with surgically treated Focal Cortical Dysplasia (FCD) type II were coregistered using a novel protocol. Dysmorphic neurons and balloon cells were immunohistochemically quantified. Evaluated markers included seizure onset, spikes, and oscillatory activity in delta, theta, gamma and ripple frequency bands, as well as sample entropy and phase-amplitude coupling between delta, theta, alpha and beta phase and gamma amplitude., Results: Correlations between histopathology and neurophysiology provided evidence for a contribution of dysmorphic neurons to interictal spikes, fast gamma activity and ripples. Furthermore, seizure onset and phase-amplitude coupling in areas with dysmorphic neurons suggests preserved connectivity is related to seizure initiation. Balloon cells showed no association., Conclusions: Phase-amplitude coupling, spikes, fast gamma and ripples are related to the density of dysmorphic neurons and localize the seizure onset zone., Significance: The results of our pilot study provide a new powerful tool to address the cellular source of abnormal neurophysiology signals to leverage current and novel biomarkers for the localization of epileptic activity in the human brain., Competing Interests: Disclosure of Conflicts of Interest None of the authors has any conflict of interest to disclose., (Copyright © 2021 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.)

Published
2021
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36. Network for Therapy in Rare Epilepsies (NETRE): Lessons From the Past 15 Years.

Author

von Stülpnagel C, van Baalen A, Borggraefe I, Eschermann K, Hartlieb T, Kiwull L, Pringsheim M, Wolff M, Kudernatsch M, Wiegand G, Striano P, and Kluger G

Abstract

Background: In 2005, Ne twork for T herapy in R are E pilepsies (NETRE)-was initiated in order to share treatment experiences among clinicians in patients with rare epilepsies. Here we describe the structure of the rapidly growing NETRE and summarize some of the findings of the last 15 years. Methodology/Structure of NETRE: NETRE is organized in distinct groups (currently >270). Starting point is always a patient with a rare epilepsy/ epileptic disorder. This creates a new group, and next, a medical coordinator is appointed. The exchange of experiences is established using a data entry form, which the coordinator sends to colleagues. The primary aim is to exchange experiences (retrospectively, anonymously, MRI results also non-anonymously) of the epilepsy treatment as well as on clinical presentation and comorbidities NETRE is neither financed nor sponsored. Results: Some of the relevant results: (1) first description of FIRES as a new epilepsy syndrome and its further investigation, (2) in SCN2A , the assignment to gain- vs. loss-of-function mutations has a major impact on clinical decisions to use or avoid treatment with sodium channel blockers, (3) the important aspect of avoiding overtreatment in CDKL5 patients, due to loss of effects of anticonvulsants after 12 months, (4) pathognomonic MRI findings in FOXG1 patients, (5) the first description of pathognomonic chewing-induced seizures in SYNGAP1 patients, and the therapeutic effect of statins as anticonvulsant in these patients, (6) the phenomenon of another reflex epilepsy-bathing epilepsy associated with a SYN1 mutation. Of special interest is also a NETRE group following twins with genetic and/or structural epilepsies [including vanishing-twin-syndrome and twin-twin-transfusion syndrome) [= "Early Neuroimpaired Twin Entity" (ENITE)]. Discussion and Perspective: NETRE enables clinicians to quickly exchange information on therapeutic experiences in rare diseases with colleagues at an international level. For both parents and clinicians/scientist this international exchange is both reassuring and helpful. In collaboration with other groups, personalized therapeutic approaches are sought, but the present limitations of currently available therapies are also highlighted. Presently, the PATRE Project (PATient based phenotyping and evaluation of therapy for Rare Epilepsies) is commencing, in which information on therapies will be obtained directly from patients and their caregivers., Competing Interests: GW obtained honoraria for speaking engagements from Desitin (Hamburg, Germany) and Novartis (Nürnberg, Germany). He gave scientific advice for PTC Therapeutics (Frankfurt, Germany). PS developed this work within the framework of the DINOGMI Department of Excellence of MIUR 2018-2022 (legge 232 del 2016), has received speaker fees and participated at advisory boards for BioMarin, PTC Therapeutics, Zogenyx, GW Pharmaceuticals, and has received research funding from ENECTA BV, PTC Therapeutics, GW Pharmaceuticals, Kolfarma Srl., Eisai. GK obtained speaker honorary from Desitin (Hamburg, Germany) and Eisai (Frankfurt, Germany). The remaining 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 © 2021 von Stülpnagel, van Baalen, Borggraefe, Eschermann, Hartlieb, Kiwull, Pringsheim, Wolff, Kudernatsch, Wiegand, Striano, Kluger and NETRE Consortium.)

Published
2021
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37. Frequent SLC35A2 brain mosaicism in mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE).

Author

Bonduelle T, Hartlieb T, Baldassari S, Sim NS, Kim SH, Kang HC, Kobow K, Coras R, Chipaux M, Dorfmüller G, Adle-Biassette H, Aronica E, Lee JH, Blumcke I, and Baulac S

Subjects
Adolescent, Brain pathology, Brain surgery, Child, Child, Preschool, Drug Resistant Epilepsy etiology, Drug Resistant Epilepsy pathology, Drug Resistant Epilepsy surgery, Epilepsies, Partial etiology, Epilepsies, Partial pathology, Epilepsies, Partial surgery, Female, Humans, Hyperplasia, Infant, Male, Malformations of Cortical Development complications, Malformations of Cortical Development pathology, Malformations of Cortical Development surgery, Monosaccharide Transport Proteins, Neurosurgical Procedures, Oligodendroglia pathology, Young Adult, Brain metabolism, Drug Resistant Epilepsy genetics, Epilepsies, Partial genetics, Malformations of Cortical Development genetics, Mosaicism
Abstract

Focal malformations of cortical development (MCD) are linked to somatic brain mutations occurring during neurodevelopment. Mild malformation of cortical development with oligodendroglial hyperplasia in epilepsy (MOGHE) is a newly recognized clinico-pathological entity associated with pediatric drug-resistant focal epilepsy, and amenable to neurosurgical treatment. MOGHE is histopathologically characterized by clusters of increased oligodendroglial cell densities, patchy zones of hypomyelination, and heterotopic neurons in the white matter. The molecular etiology of MOGHE remained unknown so far. We hypothesized a contribution of mosaic brain variants and performed deep targeted gene sequencing on 20 surgical MOGHE brain samples from a single-center cohort of pediatric patients. We identified somatic pathogenic SLC35A2 variants in 9/20 (45%) patients with mosaic rates ranging from 7 to 52%. SLC35A2 encodes a UDP-galactose transporter, previously implicated in other malformations of cortical development (MCD) and a rare type of congenital disorder of glycosylation. To further clarify the histological features of SLC35A2-brain tissues, we then collected 17 samples with pathogenic SLC35A2 variants from a multicenter cohort of MCD cases. Histopathological reassessment including anti-Olig2 staining confirmed a MOGHE diagnosis in all cases. Analysis by droplet digital PCR of pools of microdissected cells from one MOGHE tissue revealed a variant enrichment in clustered oligodendroglial cells and heterotopic neurons. Through an international consortium, we assembled an unprecedented series of 26 SLC35A2-MOGHE cases providing evidence that mosaic SLC35A2 variants, likely occurred in a neuroglial progenitor cell during brain development, are a genetic marker for MOGHE.

Published
2021
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40. Mesial Temporal Sclerosis in SCN1A-Related Epilepsy: Two Long-Term EEG Case Studies.

Author

Tiefes AM, Hartlieb T, Tacke M, von Stülpnagel-Steinbeis C, Larsen LHG, Hao Q, Dahl HA, Neubauer BA, Gerstl L, Kudernatsch M, Kluger GJ, and Borggraefe I

Subjects
Brain diagnostic imaging, Child, Preschool, Electroencephalography, Epilepsy, Temporal Lobe complications, Epilepsy, Temporal Lobe physiopathology, Humans, Male, Sclerosis, Temporal Lobe diagnostic imaging, Brain physiopathology, Epilepsy, Temporal Lobe genetics, Epilepsy, Temporal Lobe pathology, NAV1.1 Voltage-Gated Sodium Channel genetics, Temporal Lobe pathology
Abstract

Patients with temporal lobe epilepsy (TLE) due to mesial temporal sclerosis (MTS) are eligible candidates for resective epilepsy surgery. We report on 2 male patients aged 4 years with suspected TLE due to MTS who were referred for presurgical evaluation. Both patients came to medical attention within the first year of life suffering from febrile status epileptici and subsequent unprovoked seizures. The following years, moderate developmental delay was present. High-resolution magnetic resonance imaging confirmed hippocampal sclerosis. Continuous EEG video monitoring revealed seizure patterns contralateral to the MTS in both patients. Genetic analysis was performed as both the clinical presentation of the patients and EEG video monitoring findings were not consistent with the presence of the hippocampal sclerosis alone and revealed de novo mutations within exon of the SCN1A gene. Resective surgical strategies were omitted due to the genetic findings. In conclusion, both patients suffered from a dual pathology syndrome with ( a) TLE related to MTS resulting most likely from recurrent febrile status in early childhood and ( b) Dravet syndrome, which is most likely the cause of the febrile convulsions leading to the MTS in these 2 patients.

Published
2019
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41. Chewing induced reflex seizures ("eating epilepsy") and eye closure sensitivity as a common feature in pediatric patients with SYNGAP1 mutations: Review of literature and report of 8 cases.

Author

von Stülpnagel C, Hartlieb T, Borggräfe I, Coppola A, Gennaro E, Eschermann K, Kiwull L, Kluger F, Krois I, Møller RS, Rössler F, Santulli L, Schwermer C, Wallacher-Scholz B, Zara F, Wolf P, and Kluger G

Subjects
Adolescent, Child, Child, Preschool, Electroencephalography, Female, Humans, Male, Epilepsy, Reflex diagnosis, Epilepsy, Reflex etiology, Epilepsy, Reflex genetics, Eye innervation, Mastication, Mutation genetics, Myoclonus diagnosis, Myoclonus etiology, Myoclonus genetics, ras GTPase-Activating Proteins genetics
Abstract

Purpose: Heterozygous SYNGAP1 gene mutations have been associated with several forms of idiopathic generalized epilepsy, autism spectrum disorders and delay of psychomotor development. We report eight patients with a SYNGAP1 mutation and chewing/eating induced reflex seizures as new phenotype and compare them to other patients with eating epilepsy and genetic mutations., Methods: Presentation of clinical and anamnestic features and retrospective analysis of Video-EEG data of a 4 year old index patient with SYNGAP1 mutation and chewing /eating induced seizures. Clinical and anamnestic features and home videos of seven additional patients (4 female; age: 4-14 years) with SYNGAP1 mutation and eating induced reflex seizures were compared., Results: All reflex seizures of the index patient showed similar focal EEG pattern with 1-5 seconds high amplitude, irregular 3/sec spike-wave complexes with initiation from left temporo-occipital, right temporo-occipital or bi- occipital / temporo-occipital regions. Eyelid myoclonia, the most common seizure type in all 8 patients, were typically initiated by eating or other simple orofacial stimuli. In the index patient eye closure preceded eating induced-eyelid myoclonia in 30/38 seizures., Conclusion: The main clinical features of our patient (i.e. intellectual disability, epilepsy, autistic features) are compatible with previous reports on patients with SYNGAP1 mutations. This is the first complete description of eating induced seizures in association with SYNGAP1 mutations. Whether eye closure sensitivity (ECS) represents an independent reflex epileptic trait, as seen in other patients with idiopathic "generalized" epilepsies (IGE), or eye closure is part of a complex trigger mechanism in SYNGAP1 patients' remains to be elucidated., (Copyright © 2018 British Epilepsy Association. Published by Elsevier Ltd. All rights reserved.)

Published
2019
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42. Age-related MR characteristics in mild malformation of cortical development with oligodendroglial hyperplasia and epilepsy (MOGHE).

Author

Hartlieb T, Winkler P, Coras R, Pieper T, Holthausen H, Blümcke I, Staudt M, and Kudernatsch M

Subjects
Adolescent, Age Factors, Brain surgery, Child, Child, Preschool, Drug Resistant Epilepsy surgery, Female, Gray Matter diagnostic imaging, Gray Matter surgery, Humans, Hyperplasia diagnostic imaging, Hyperplasia surgery, Infant, Magnetic Resonance Spectroscopy methods, Male, Malformations of Cortical Development surgery, Pilot Projects, Retrospective Studies, White Matter diagnostic imaging, White Matter surgery, Young Adult, Brain diagnostic imaging, Drug Resistant Epilepsy diagnostic imaging, Magnetic Resonance Imaging methods, Malformations of Cortical Development diagnostic imaging, Oligodendroglia pathology
Abstract

Background: Mild malformation of cortical development with oligodendroglial hyperplasia and epilepsy (MOGHE) is a newly described, rare histopathologic entity detected in resected brain tissue of patients with refractory epilepsies. It shows a predominantly frontal localization causing a difficult-to-treat epilepsy with onset usually in early childhood. Histologically, MOGHE is characterized by blurred gray-white-matter boundaries with increased numbers of heterotopic neurons in the subcortical white matter and increased density of oligodendroglia. Little is known, to date, about radiologic features of MOGHE. Here, we report typical and age-related magnetic resonance (MR) characteristics of MOGHE., Patients and Methods: Retrospective analysis of 40 preoperative MR images of 25 pediatric patients with MOGHE (m/f: 13/12) who underwent epilepsy surgery at a median age of 9.3 years at our center between 2003 and 2018. Median age at magnetic resonance imaging (MRI) was 5.2 years (1.5-20.7 years)., Results: Two MR subtypes were found: subtype I with an increased laminar T2 and fluid attenuated inversion recovery (FLAIR) signal at the corticomedullary junction and subtype II with reduced corticomedullary differentiation because of increased signal of the adjacent white matter. Distribution of subtypes was age-related, with subtype I occurring between 1.5 and 5.1 years (median 2.6 years) and subtype II between 3.4 and 20.7 years (median 14.1 years). In one patient, MRI at the age of 2.7 years showed subtype I but had converted to subtype II by the age of 16 years. Histology revealed that in addition to the above mentioned typical findings of MOGHE, patchy areas of reduced density of myelin in 6 of 7 patients presenting subtype I out of 14 patients in which retrospective analysis regarding myelination was accessible., Conclusion: Magnetic resonance characteristics in patients with MOGHE are age-related and seem to change from subtype I to subtype II probably because of maturational processes between 3 and 6 years. Patchy areas of hypomyelination in histology seem to disappear during brain maturation and may therefore represent the histologic correlate of laminar T2 and FLAIR hyperintensities in subtype I. This article is part of the Special Issue "Individualized Epilepsy Management: Medicines, Surgery and Beyond"., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2019
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43. Neurologic phenotypes associated with COL4A1 / 2 mutations: Expanding the spectrum of disease.

Author

Zagaglia S, Selch C, Nisevic JR, Mei D, Michalak Z, Hernandez-Hernandez L, Krithika S, Vezyroglou K, Varadkar SM, Pepler A, Biskup S, Leão M, Gärtner J, Merkenschlager A, Jaksch M, Møller RS, Gardella E, Kristiansen BS, Hansen LK, Vari MS, Helbig KL, Desai S, Smith-Hicks CL, Hino-Fukuyo N, Talvik T, Laugesaar R, Ilves P, Õunap K, Körber I, Hartlieb T, Kudernatsch M, Winkler P, Schimmel M, Hasse A, Knuf M, Heinemeyer J, Makowski C, Ghedia S, Subramanian GM, Striano P, Thomas RH, Micallef C, Thom M, Werring DJ, Kluger GJ, Cross JH, Guerrini R, Balestrini S, and Sisodiya SM

Subjects
Adolescent, Adult, Child, Child, Preschool, Epilepsy genetics, Female, Genetic Association Studies, Humans, Male, Mutation, Young Adult, Collagen Type IV genetics, Nervous System Diseases genetics, Nervous System Diseases pathology
Abstract

Objective: To characterize the neurologic phenotypes associated with COL4A1/2 mutations and to seek genotype-phenotype correlation., Methods: We analyzed clinical, EEG, and neuroimaging data of 44 new and 55 previously reported patients with COL4A1/COL4A2 mutations., Results: Childhood-onset focal seizures, frequently complicated by status epilepticus and resistance to antiepileptic drugs, was the most common phenotype. EEG typically showed focal epileptiform discharges in the context of other abnormalities, including generalized sharp waves or slowing. In 46.4% of new patients with focal seizures, porencephalic cysts on brain MRI colocalized with the area of the focal epileptiform discharges. In patients with porencephalic cysts, brain MRI frequently also showed extensive white matter abnormalities, consistent with the finding of diffuse cerebral disturbance on EEG. Notably, we also identified a subgroup of patients with epilepsy as their main clinical feature, in which brain MRI showed nonspecific findings, in particular periventricular leukoencephalopathy and ventricular asymmetry. Analysis of 15 pedigrees suggested a worsening of the severity of clinical phenotype in succeeding generations, particularly when maternally inherited. Mutations associated with epilepsy were spread across COL4A1 and a clear genotype-phenotype correlation did not emerge., Conclusion: COL4A1/COL4A2 mutations typically cause a severe neurologic condition and a broader spectrum of milder phenotypes, in which epilepsy is the predominant feature. Early identification of patients carrying COL4A1/COL4A2 mutations may have important clinical consequences, while for research efforts, omission from large-scale epilepsy sequencing studies of individuals with abnormalities on brain MRI may generate misleading estimates of the genetic contribution to the epilepsies overall., (Copyright © 2018 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2018
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44. Aspiration in children and adolescents with neurogenic dysphagia: comparison of clinical judgment and fiberoptic endoscopic evaluation of swallowing.

Author

Beer S, Hartlieb T, Müller A, Granel M, and Staudt M

Subjects
Adolescent, Child, Child, Preschool, Deglutition, Deglutition Disorders complications, Female, Fiber Optic Technology, Humans, Infant, Male, Risk Factors, Bronchoscopy, Deglutition Disorders diagnosis, Nervous System Diseases complications, Respiratory Aspiration diagnosis
Abstract

A total of 30 children and adolescents with dysphagia due to various chronic neurological disorders were assessed for their risk of aspiration. This assessment was performed clinically by experienced speech and swallowing therapists, and verified thereafter by fiberoptic endoscopy. We found the clinical judgment to be correct in only 70% (for aspiration of saliva), 55% (of puree), and 67% (of thin liquids). We conclude that, because of this unacceptably high error rate of clinical assessment, a fiberoptic evaluation of swallowing is a necessary diagnostic step both for the planning of therapy and for the development of feeding strategies in children and adolescents with neurogenic dysphagia., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2014
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45. Magnetic resonance cystometry: accurate assessment of bladder volume with magnetic resonance imaging.

Author

Heverhagen JT, Hartlieb T, Boehm D, Klose KJ, and Wagner HJ

Subjects
Adult, Algorithms, Confidence Intervals, Feasibility Studies, Female, Humans, Magnetic Resonance Imaging instrumentation, Male, Reference Standards, Urine, Magnetic Resonance Imaging methods, Urinary Bladder anatomy & histology
Abstract

Objectives: To evaluate magnetic resonance hydrometry for the calculation of bladder volume. The reference standard to assess bladder volume is urethral catheterization, which may be linked with the risk of trauma and infection. Hence, ultrasonography is the preferred diagnostic method. However, ultrasonography is investigator dependent and inaccurate in the hands of an inexperienced operator., Methods: Investigations were performed in a 1.0-Tesla clinical scanner with a manufacturer-provided single-shot turbo spin-echo sequence. We examined 30 healthy volunteers (21 males and 9 females) with a mean age of 26.4 years. To quantify the volume of fluid in a magnetic resonance image, a histogram algorithm was used and a calibration phantom applied. Prevoid and postvoid images were acquired. The bladder volume was calculated as the difference between the prevoid and postvoid image fluid volumes. The magnetic resonance-calculated data were compared with the actually voided volumes., Results: The measured voided bladder volume was 400 +/- 33 mL, whereas magnetic resonance hydrometry yielded 390 +/- 31 mL. The difference between both measurements was not statistically significant. The 95% confidence interval for the difference of both measurements ranged from -22.6 to 2.4 mL. The regression had an r2 of 0.97., Conclusions: The feasibility of magnetic resonance hydrometry to quantify the bladder volume noninvasively was demonstrated.

Published
2002
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