Your search keyword '"malformations of cortical development"' showing total 2,755 results

1. Astroscape: a Study of Radiprodil on Safety, Tolerability, Pharmacokinetics, and Effect on Seizures and Behavioral Symptoms in Patients with TSC or FCD Type II

Published

2024

2. Mos-FED (Mosaicism in Focal Epilepsy Cortical Dysplasia Tissue) (MosFED)

Author

King's College London and Danish Epilepsy Centre

Published

2024

3. Prenatal assessment of brain malformations on neuroimaging: an expert panel review.

Author

Pogledic, Ivana, Mankad, Kshitij, Severino, Mariasavina, Lerman-Sagie, Tally, Jakab, Andras, Hadi, Efrat, Jansen, Anna C, Bahi-Buisson, Nadia, Donato, Natalya Di, Oegema, Renske, Mitter, Christian, Capo, Ivan, Whitehead, Matthew T, Haldipur, Parthiv, Mancini, Grazia, Huisman, Thierry A G M, Righini, Andrea, Dobyns, Bill, Barkovich, James A, and Milosevic, Natasa Jovanov

Subjects

*FETAL MRI, *POSTMORTEM imaging, *FETAL ultrasonic imaging, *HUMAN abnormalities, *FETAL imaging

Abstract

Brain malformations represent a heterogeneous group of abnormalities of neural morphogenesis, often associated with aberrations of neuronal connectivity and brain volume. Prenatal detection of brain malformations requires a clear understanding of embryology and developmental morphology through the various stages of gestation. This expert panel review is written with the central aim of providing an easy-to-understand road map to improve prenatal detection and characterization of structural malformations based on the current understanding of normal and aberrant brain development. For every developmental stage, the utility of each available neuroimaging modality, including prenatal multiplanar neuro sonography, anatomical MRI and advanced MRI techniques, as well as further insights from post-mortem imaging, has been highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

4. WONOEP appraisal: The role of glial cells in focal malformations associated with early onset epilepsies.

Author

Cases‐Cunillera, Silvia, Quatraccioni, Anne, Rossini, Laura, Ruffolo, Gabriele, Ono, Tomonori, Baulac, Stéphanie, Auvin, Stéphane, O'Brien, Terence J., Henshall, David C., Akman, Özlem, Sankar, Raman, and Galanopoulou, Aristea S.

Subjects

*NEUROGLIA, *EPILEPTIFORM discharges, *NEURAL circuitry, *BRAIN damage, *NEUROLOGICAL disorders

Abstract

Epilepsy represents a common neurological disorder in patients with developmental brain lesions, particularly in association with malformations of cortical development and low‐grade glioneuronal tumors. In these diseases, genetic and molecular alterations in neurons are increasingly discovered that can trigger abnormalities in the neuronal network, leading to higher neuronal excitability levels. However, the mechanisms underlying epilepsy cannot rely solely on assessing the neuronal component. Growing evidence has revealed the high degree of complexity underlying epileptogenic processes, in which glial cells emerge as potential modulators of neuronal activity. Understanding the role of glial cells in developmental brain lesions such as malformations of cortical development and low‐grade glioneuronal tumors is crucial due to the high degree of pharmacoresistance characteristic of these lesions. This has prompted research to investigate the role of glial and immune cells in epileptiform activity to find new therapeutic targets that could be used as combinatorial drug therapy. In a special session of the XVI Workshop of the Neurobiology of Epilepsy (WONOEP, Talloires, France, July 2022) organized by the Neurobiology Commission of the International League Against Epilepsy, we discussed the evidence exploring the genetic and molecular mechanisms of glial cells and immune response and their implications in the pathogenesis of neurodevelopmental pathologies associated with early life epilepsies. [ABSTRACT FROM AUTHOR]

Published

2024

5. Structural features of brain regions in temporal lobe epilepsy with dual pathology: An analysis based on MRI postprocessing technology

Author

KONG Yu, LIU Ruihan, YAO Lei, WANG Shuzhen, LIU Chunzhao, KONG Qingxia

Subjects

epilepsy, temporal lobe, image processing, computer-assisted, magnetic resonance imaging, malformations of cortical development, hippocampus, sclerosis, Medicine

Abstract

Objective To perform automatic fine brain segmentation and brain region quantitative analysis based on magnetic resonance imaging (MRI) postprocessing technology, and to investigate the structural features of brain regions in drug-resis-tant temporal lobe epilepsy (TLE) with dual pathology (DP). Methods Thirty-five TLE patients with DP treated at our hospital from January 2017 to December 2023 were selected as TLE-DP group, and 32 healthy adults from the same period were selected as control group. The MRI images of the two groups were collected for automatic fine brain segmentation and brain region quantitative analysis. The volume, volume fraction, cortical thickness, cortical surface area, and cortical curvature of each brain region were compared between the two groups. The receiver operating characteristic (ROC) curve and area under the curve (AUC) were used to evaluate the above parameters for the efficacy of diagnosis of TLE with DP. Results Automatic fine brain segmentation and brain region quantitative analysis indicated that the volume of 30 brain regions, volume fraction of 12 brain regions, cortical thickness of 2 brain regions, cortical surface area of 11 brain regions, cortical curvature of 3 brain regions, volume of 21 hippocampal subregions, and volume fraction of 1 hippocampal subregion were significantly different between the two groups (t=-2.151-3.882,P0.7). Conclusion Automatic fine brain segmentation and brain region quantitative analysis based on MRI postprocessing technology are of high diagnostic value in TLE patients with DP.

Published

2024

6. Fenfluramine for the Treatment of Different Types of Developmental and Epileptic Encephalopathies: a Pilot Trial Exploring Epileptic and Non-epileptic Outcomes (FENDEEP)

Author

Zogenix, Inc. and Antonio Gil-Nagel, Epilepsy Program Director

Published

2024

7. MALFORMACIONES DEL DESARROLLO CORTICAL: ¿QUÉ HAY DE NUEVO?

Author

CELESTE BUOMPADRE, MARIA

Abstract

Copyright of Medicina (Buenos Aires) is the property of Medicina (Buenos Aires) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Good Outcome of Resective Epilepsy Surgery in a 1-Year-Old Child with Drug-Resistant Focal Epilepsy with a Novel Pathogenic COL4A1 Mutation.

Author

Fearns, Nicholas, Wagner, Matias, Borggräfe, Ingo, Kunz, Mathias, Rémi, Jan, and Vollmar, Christian

Subjects

*EPILEPSY surgery, *PARTIAL epilepsy, *FOCAL cortical dysplasia, *TEMPORAL lobectomy, *PEDIATRIC surgery, *MAGNETIC resonance imaging, *POSITRON emission tomography

Abstract

Pathogenic variants in COL4A1 , encoding the α chain of type IV collagen, have been associated with cerebrovascular pathology as well as malformations of cortical development, thereby causing structural epilepsy. This case illustrates successful resective epilepsy surgery in a 12-month-old girl with left occipital focal cortical dysplasia (FCD) associated with a heterozygous splice-donor variant in COL4A1. She presented with drug-resistant focal epilepsy with daily seizures from the age of 2 months, refractory to several combinations of antiseizure medications, as well as mild right-sided hemiparesis and developmental delay. All presurgical diagnostic modalities, including ictal and interictal electroencephalography, magnetic resonance imaging, and ictal fluorodeoxyglucose positron emission tomography, showed congruent findings, pointing toward one single left occipital epileptogenic zone (EZ). We performed a left occipital lobectomy, using intraoperative electrocorticography to confirm the boundaries of the EZ. After surgery, the patient has remained seizure free, and both cognitive and motor developments have improved. Histopathology of the resected brain tissue showed FCD type Ia. Resective epilepsy surgery can have a very good outcome, also in patients with genetic mutations in COL4A1 , constituting a less invasive option than the previously used more radical surgical procedures such as hemispherectomy. [ABSTRACT FROM AUTHOR]

Published

2024

9. Genetic and Electrophysiologic Study in Focal Drug-resistant Epilepsies (GENEPHY)

Published

2023

10. First-in-human Experience Using Novel Ultraflexible Low-impedance Electrode Arrays: an IDEAL Stage 1 Study

Published

2023

11. Normative Brain Volume Profiles From Multicenter Fetal MRI (MULTINORMFET)

Published

2023

12. Use of a Tonometer to Identify Epileptogenic Lesions During Pediatric Epilepsy Surgery

Author

Université de Montréal and Aria Fallah, Aria Fallah, MD, MSc, FRCSC, FAANS, FAAP; Neurosurgery

Published

2023

13. A report on gray matter heterotopias and neuropsychiatric manifestation: A bleary phenomenon

Author

Vishnupriya Veeraraghavan

Subjects

band heterotopias, malformations of cortical development, panic disorder, Psychiatry, RC435-571

Abstract

Malformations of the cortical system are associated with many neuropsychiatric manifestations. Gray matter heterotopia is a neuronal migration disorder characterized by the presence of normal gray matter neurons and glial cells, which are abnormally located in clusters within areas of white matter. Neurological manifestations such as seizure disorder, specific learning disability, intellectual disability, and stroke are the most common presentations. Psychiatric manifestations such as schizophrenia, anxiety, and depression although more common yet underreported or masked. Here, we present the report of a 17-year-old female with subependymal heterotopias, poor academic performance, and seizure disorder presenting with panic attacks.

Published

2024

14. Comprehensive multi-omic profiling of somatic mutations in malformations of cortical development

Author

Chung, Changuk, Yang, Xiaoxu, Bae, Taejeong, Vong, Keng Ioi, Mittal, Swapnil, Donkels, Catharina, Westley Phillips, H, Li, Zhen, Marsh, Ashley PL, Breuss, Martin W, Ball, Laurel L, Garcia, Camila Araújo Bernardino, George, Renee D, Gu, Jing, Xu, Mingchu, Barrows, Chelsea, James, Kiely N, Stanley, Valentina, Nidhiry, Anna S, Khoury, Sami, Howe, Gabrielle, Riley, Emily, Xu, Xin, Copeland, Brett, Wang, Yifan, Kim, Se Hoon, Kang, Hoon-Chul, Schulze-Bonhage, Andreas, Haas, Carola A, Urbach, Horst, Prinz, Marco, Limbrick, David D, Gurnett, Christina A, Smyth, Matthew D, Sattar, Shifteh, Nespeca, Mark, Gonda, David D, Imai, Katsumi, Takahashi, Yukitoshi, Chen, Hsin-Hung, Tsai, Jin-Wu, Conti, Valerio, Guerrini, Renzo, Devinsky, Orrin, Silva, Wilson A, Machado, Helio R, Mathern, Gary W, Abyzov, Alexej, Baldassari, Sara, Baulac, Stéphanie, and Gleeson, Joseph G

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Brain Disorders, Clinical Research, Congenital Structural Anomalies, Neurodegenerative, Neurosciences, Human Genome, Pediatric, Epilepsy, Biotechnology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Neurological, Humans, Multiomics, Brain, Mutation, Malformations of Cortical Development, Focal Cortical Dysplasia Neurogenetics Consortium, Brain Somatic Mosaicism Network, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology

Abstract

Malformations of cortical development (MCD) are neurological conditions involving focal disruptions of cortical architecture and cellular organization that arise during embryogenesis, largely from somatic mosaic mutations, and cause intractable epilepsy. Identifying the genetic causes of MCD has been a challenge, as mutations remain at low allelic fractions in brain tissue resected to treat condition-related epilepsy. Here we report a genetic landscape from 283 brain resections, identifying 69 mutated genes through intensive profiling of somatic mutations, combining whole-exome and targeted-amplicon sequencing with functional validation including in utero electroporation of mice and single-nucleus RNA sequencing. Genotype-phenotype correlation analysis elucidated specific MCD gene sets associated with distinct pathophysiological and clinical phenotypes. The unique single-cell level spatiotemporal expression patterns of mutated genes in control and patient brains indicate critical roles in excitatory neurogenic pools during brain development and in promoting neuronal hyperexcitability after birth.

Published

2023

15. Disproportion of Corpus Callosum in Fetuses With Malformations of Cortical Development.

Author

Jiang, Yu‐Ting, Zeng, Xiao‐Jing, He, Miao, Lei, Ting, and Xie, Hong‐Ning

Subjects

CORPUS callosum, FETAL brain, FETUS, HUMAN abnormalities, STATURE

Abstract

Objective: To evaluate corpus callosum (CC) size in fetuses with malformations of cortical development (MCD) and to explore the diagnostic value of three CC length (CCL) ratios in identifying cortical abnormalities. Methods: This is a single‐center retrospective study in singleton fetuses at 20–37 weeks of gestation between April 2017 and August 2022. The midsagittal plane of the fetal brain was obtained and evaluated for the following variables: length, height, area of the corpus callosum, and relevant markers, including the ratios of corpus callosum length to internal cranial occipitofrontal dimension (CCL/ICOFD), corpus callosum length to femur length (CCL/FL), and corpus callosum length to cerebellar vermian diameter (CCL/VD). Intra‐class correlation coefficient (ICC) was used to evaluate measurement consistency. The accuracy of biometric measurements in prediction of MCD was assessed using the area under the receiver‐operating‐characteristics curves (AUC). Results: Fetuses with MCD had a significantly decreased CCL, height (genu and splenium), and area as compared with those of normal fetuses (P <.05), but there was no significant difference in body height (P =.326). The CCL/ICOFD, CCL/FL, and CCL/VD ratios were significantly decreased in fetuses with MCD when compared with controls (P <.05). The CCL/ICOFD ratio offered the highest predictive accuracy for MCD, yielding an AUC of 0.856 (95% CI: 0.774–0.938, P <.001), followed by CCL/FL ratio (AUC, 0.780 (95% CI: 0.657–0.904), P <.001), CCL/VD ratio (AUC, 0.677 (95% CI: 0.559–0.795), P <.01). Conclusion: The corpus callosum biometric parameters in fetuses with MCD are reduced. The CCL/ICOFD ratio derived from sonographic measurements is considered a promising tool for the prenatal detection of cortical malformations. External validation of these findings and prospective studies are warranted. [ABSTRACT FROM AUTHOR]

Published

2024

16. Fetal indusium griseum is a possible biomarker of the regularity of brain midline development in 3T MR imaging: A retrospective observational study.

Author

Pogledic, Ivana, Bobić‐Rasonja, Mihaela, Mitter, Christian, Štajduhar, Andrija, Schwartz, Ernst, Milković‐Periša, Marija, Baltzer, Pascal A., Lequin, Maarten, Krampl‐Bettelheim, Elisabeth, Kasprian, Gregor, Judaš, Miloš, Prayer, Daniela, and Jovanov‐Milosevic, Natasa

Subjects

*MAGNETIC resonance imaging, *NEURAL development, *BIOMARKERS, *FETAL brain, *AUTOPSY

Abstract

Introduction: This study aimed to assess the visibility of the indusium griseum (IG) in magnetic resonance (MR) scans of the human fetal brain and to evaluate its reliability as an imaging biomarker of the normality of brain midline development. Material and methods: The retrospective observational study encompassed T2‐w 3T MR images from 90 post‐mortem fetal brains and immunohistochemical sections from 41 fetal brains (16–40 gestational weeks) without cerebral pathology. Three raters independently inspected and evaluated the visibility of IG in post‐mortem and in vivo MR scans. Weighted kappa statistics and regression analysis were used to determine inter‐ and intra‐rater agreement and the type and strength of the association of IG visibility with gestational age. Results: The visibility of the IG was the highest between the 25 and 30 gestational week period, with a very good inter‐rater variability (kappa 0.623–0.709) and excellent intra‐rater variability (kappa 0.81–0.93). The immunochemical analysis of the histoarchitecture of IG discloses the expression of highly hydrated extracellular molecules in IG as the substrate of higher signal intensity and best visibility of IG during the mid‐fetal period. Conclusions: The knowledge of developmental brain histology and fetal age allows us to predict the IG‐visibility in magnetic resonance imaging (MRI) and use it as a biomarker to evaluate the morphogenesis of the brain midline. As a biomarker, IG is significant for post‐mortem pathological examination by MRI. Therefore, in the clinical in vivo imaging examination, IG should be anticipated when an assessment of the brain midline structures is needed in mid‐gestation, including corpus callosum thickness measurements. [ABSTRACT FROM AUTHOR]

Published

2024

17. The molecular genetics of PI3K/PTEN/AKT/mTOR pathway in the malformations of cortical development

Author

Qing Ma, Guang Chen, Ying Li, Zhenming Guo, and Xue Zhang

Subjects

Epilepsy, Gene mutation, Genetics, Malformations of cortical development, PI3K/PTEN/AKT/mTOR pathway, Medicine (General), R5-920, QH426-470

Abstract

Malformations of cortical development (MCD) are a group of developmental disorders characterized by abnormal cortical structures caused by genetic or harmful environmental factors. Many kinds of MCD are caused by genetic variation. MCD is the common cause of intellectual disability and intractable epilepsy. With rapid advances in imaging and sequencing technologies, the diagnostic rate of MCD has been increasing, and many potential genes causing MCD have been successively identified. However, the high genetic heterogeneity of MCD makes it challenging to understand the molecular pathogenesis of MCD and to identify effective targeted drugs. Thus, in this review, we outline important events of cortical development. Then we illustrate the progress of molecular genetic studies about MCD focusing on the PI3K/PTEN/AKT/mTOR pathway. Finally, we briefly discuss the diagnostic methods, disease models, and therapeutic strategies for MCD. The information will facilitate further research on MCD. Understanding the role of the PI3K/PTEN/AKT/mTOR pathway in MCD could lead to a novel strategy for treating MCD-related diseases.

Published

2024

18. Clinical and Genetic Spectrum of Tubulinopathy: A Single-Center Study

Author

Hey-Joon Son, Minhye Kim, Hye Jin Kim, Jae So Cho, Soo Yeon Kim, Byung Chan Lim, Ki Joong Kim, Jong-Hee Chae, and Woo Joong Kim

Subjects

tubulin, malformations of cortical development, developmental disabilities, Internal medicine, RC31-1245, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Purpose Tubulinopathy represents a group of disorders caused by variants in tubulin genes, which present with a wide spectrum of brain malformations. This study was conducted to provide insight into the phenotypic and genetic spectra of tubulinopathy within the Korean pediatric population. Methods Among individuals who underwent genetic testing at a pediatric neurology clinic between June 2011 and December 2021, 15 patients with tubulin gene variants were retrospectively recruited. Clinical features, genetic information, and brain imaging findings were retrospectively reviewed. Results The genetic spectra of the patients included TUBA1A (n=5, 33.3%), TUBB4A (n=6, 40.0%), TUBB3 (n=2, 13.3%), TUBB (n=1, 6.7%), and TUBB2A (n=1, 6.7%) variants. Two novel mutations were identified: a c.497A>G; p.(Lys166Arg) variant in TUBA1A and a c.907G>C; p.(Ala303Pro) variant in TUBB. All 15 patients exhibited developmental delays, with a broad spectrum of severity. Other common manifestations included microcephaly (n=10; 66.7%) and seizures (n=9; 60%). A review of the neuroimaging data revealed a range of findings that were both genotype-specific and overlapping across genotypes. In cases of TUBA1A mutation (n=5), four patients (80%) presented with pachygyria and polymicrogyria, while three (60%) displayed cerebellar hypoplasia and dysplasia. All patients with TUBB4A variants (n=6) exhibited hypomyelination, and three (50%) had cerebellar dysplasia. Conclusion This study represents the first cohort analysis of tubulin gene mutations associated with tubulinopathy in a Korean pediatric population. It suggests that these mutations can produce a broad spectrum of neurodevelopmental and neuroimaging findings and should be considered within the differential diagnosis in relevant clinical scenarios.

Published

2024

19. Deep learning-based automated lesion segmentation on pediatric focal cortical dysplasia II preoperative MRI: a reliable approach

Author

Siqi Zhang, Yijiang Zhuang, Yi Luo, Fengjun Zhu, Wen Zhao, and Hongwu Zeng

Subjects

Malformations of cortical development, Refractory epilepsy, Pediatrics, Deep learning, Magnetic resonance imaging, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Objectives Focal cortical dysplasia (FCD) represents one of the most common causes of refractory epilepsy in children. Deep learning demonstrates great power in tissue discrimination by analyzing MRI data. A prediction model was built and verified using 3D full-resolution nnU-Net for automatic lesion detection and segmentation of children with FCD II. Methods High-resolution brain MRI structure data from 65 patients, confirmed with FCD II by pathology, were retrospectively studied. Experienced neuroradiologists segmented and labeled the lesions as the ground truth. Also, we used 3D full-resolution nnU-Net to segment lesions automatically, generating detection maps. The algorithm was trained using fivefold cross-validation, with data partitioned into training (N = 200) and testing (N = 15). To evaluate performance, detection maps were compared to expert manual labels. The Dice-Sørensen coefficient (DSC) and sensitivity were used to assess the algorithm performance. Results The 3D nnU-Net showed a good performance for FCD lesion detection at the voxel level, with a sensitivity of 0.73. The best segmentation model achieved a mean DSC score of 0.57 on the testing dataset. Conclusion This pilot study confirmed that 3D full-resolution nnU-Net can automatically segment FCD lesions with reliable outcomes. This provides a novel approach to FCD lesion detection. Critical relevance statement Our fully automatic models could process the 3D T1-MPRAGE data and segment FCD II lesions with reliable outcomes. Key points • Simplified image processing promotes the DL model implemented in clinical practice. • The histopathological confirmed lesion masks enhance the clinical credibility of the AI model. • The voxel-level evaluation metrics benefit lesion detection and clinical decisions. Graphical Abstract

Published

2024

20. Biomarkers for Tuberous Sclerosis Complex (BioTuScCom) (TuScCom)

Published

2023

21. Integrating standard epilepsy protocol, ASL-perfusion, MP2RAGE/EDGE and the MELD-FCD classifier in the detection of subtle epileptogenic lesions: a 3 Tesla MRI pilot study

Author

Pastore, Luigi Vincenzo, Sudhakar, Sniya Valsa, Mankad, Kshitij, De Vita, Enrico, Biswas, Asthik, Tisdall, Martin M., Chari, Aswin, Figini, Matteo, Tahir, M. Zubair, Adler, Sophie, Moeller, Friederike, Cross, J. Helen, Pujar, Suresh, Wagstyl, Konrad, Ripart, Mathilde, Löbel, Ulrike, Cirillo, Luigi, and D’Arco, Felice

Published

2024

22. Focally Enlarged Perivascular Spaces in Pediatric and Adolescent Patients with Polymicrogyria—an MRI Study

Author

Rauch, Maximilian, Lachner, Karsten, Frickel, Lea, Lauer, Monika, Adenauer, Simon Jonas, Neuhaus, Elisabeth, Hattingen, Elke, and Porto, Luciana

Published

2024

23. Deep learning-based automated lesion segmentation on pediatric focal cortical dysplasia II preoperative MRI: a reliable approach

Author

Zhang, Siqi, Zhuang, Yijiang, Luo, Yi, Zhu, Fengjun, Zhao, Wen, and Zeng, Hongwu

Published

2024

24. Clinical and Genetic Spectrum of Tubulinopathy: A Single-Center Study.

Author

Son, Hey-Joon, Kim, Minhye, Kim, Hye Jin, Cho, Jae So, Kim, Soo Yeon, Lim, Byung Chan, Kim, Ki Joong, Chae, Jong-Hee, and Kim, Woo Joong

Subjects

*TUBULIN genetics, *BRAIN diseases, *GENETIC testing, *PEDIATRIC neurology, *SEIZURES (Medicine), *BRAIN imaging

Abstract

Purpose: Tubulinopathy represents a group of disorders caused by variants in tubulin genes, which present with a wide spectrum of brain malformations. This study was conducted to provide insight into the phenotypic and genetic spectra of tubulinopathy within the Korean pediatric population. Methods: Among individuals who underwent genetic testing at a pediatric neurology clinic between June 2011 and December 2021, 15 patients with tubulin gene variants were retrospectively recruited. Clinical features, genetic information, and brain imaging findings were retrospectively reviewed. Results: The genetic spectra of the patients included TUBA1A (n=5, 33.3%), TUBB4A (n=6, 40.0%), TUBB3 (n=2, 13.3%), TUBB (n=1, 6.7%), and TUBB2A (n=1, 6.7%) variants. Two novel mutations were identified: a c.497A>G; p.(Lys166Arg) variant in TUBA1A and a c.907G>C; p.(Ala303Pro) variant in TUBB. All 15 patients exhibited developmental delays, with a broad spectrum of severity. Other common manifestations included microcephaly (n=10; 66.7%) and seizures (n=9; 60%). A review of the neuroimaging data revealed a range of findings that were both genotype-specific and overlapping across genotypes. In cases of TUBA1A mutation (n=5), four patients (80%) presented with pachygyria and polymicrogyria, while three (60%) displayed cerebellar hypoplasia and dysplasia. All patients with TUBB4A variants (n=6) exhibited hypomyelination, and three (50%) had cerebellar dysplasia. Conclusion: This study represents the first cohort analysis of tubulin gene mutations associated with tubulinopathy in a Korean pediatric population. It suggests that these mutations can produce a broad spectrum of neurodevelopmental and neuroimaging findings and should be considered within the differential diagnosis in relevant clinical scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

25. Malformations of cortical development: Fetal imaging and genetics.

Author

Wang, Lin‐Lin, Pan, Ping‐Shan, Ma, Hui, He, Chun, Qin, Zai‐Long, He, Wei, Huang, Jing, Tan, Shu‐Yin, Meng, Da‐Hua, Wei, Hong‐Wei, and Yin, Ai‐Hua

Subjects

*FETAL ultrasonic imaging, *FETAL imaging, *GENETICS, *FETAL MRI, *FETAL development, *DNA copy number variations

Abstract

Background: Malformations of cortical development (MCD) are a group of congenital disorders characterized by structural abnormalities in the brain cortex. The clinical manifestations include refractory epilepsy, mental retardation, and cognitive impairment. Genetic factors play a key role in the etiology of MCD. Currently, there is no curative treatment for MCD. Phenotypes such as epilepsy and cerebral palsy cannot be observed in the fetus. Therefore, the diagnosis of MCD is typically based on fetal brain magnetic resonance imaging (MRI), ultrasound, or genetic testing. The recent advances in neuroimaging have enabled the in‐utero diagnosis of MCD using fetal ultrasound or MRI. Methods: The present study retrospectively reviewed 32 cases of fetal MCD diagnosed by ultrasound or MRI. Then, the chromosome karyotype analysis, single nucleotide polymorphism array or copy number variation sequencing, and whole‐exome sequencing (WES) findings were presented. Results: Pathogenic copy number variants (CNVs) or single‐nucleotide variants (SNVs) were detected in 22 fetuses (three pathogenic CNVs [9.4%, 3/32] and 19 SNVs [59.4%, 19/32]), corresponding to a total detection rate of 68.8% (22/32). Conclusion: The results suggest that genetic testing, especially WES, should be performed for fetal MCD, in order to evaluate the outcomes and prognosis, and predict the risk of recurrence in future pregnancies. [ABSTRACT FROM AUTHOR]

Published

2024

26. The Genetics of Tuberous Sclerosis Complex and Related mTORopathies: Current Understanding and Future Directions.

Author

Man, Alice, Di Scipio, Matteo, Grewal, Shan, Suk, Yujin, Trinari, Elisabetta, Ejaz, Resham, and Whitney, Robyn

Subjects

*TUBEROUS sclerosis, *GENETICS, *FOCAL cortical dysplasia, *GENETIC testing, *DELAYED onset of disease, *GENETIC mutation

Abstract

The mechanistic target of rapamycin (mTOR) pathway serves as a master regulator of cell growth, proliferation, and survival. Upregulation of the mTOR pathway has been shown to cause malformations of cortical development, medically refractory epilepsies, and neurodevelopmental disorders, collectively described as mTORopathies. Tuberous sclerosis complex (TSC) serves as the prototypical mTORopathy. Characterized by the development of benign tumors in multiple organs, pathogenic variants in TSC1 or TSC2 disrupt the TSC protein complex, a negative regulator of the mTOR pathway. Variants in critical domains of the TSC complex, especially in the catalytic TSC2 subunit, correlate with increased disease severity. Variants in less crucial exons and non-coding regions, as well as those undetectable with conventional testing, may lead to milder phenotypes. Despite the assumption of complete penetrance, expressivity varies within families, and certain variants delay disease onset with milder neurological effects. Understanding these genotype–phenotype correlations is crucial for effective clinical management. Notably, 15% of patients have no mutation identified by conventional genetic testing, with the majority of cases postulated to be caused by somatic TSC1/TSC2 variants which present complex diagnostic challenges. Advancements in genetic testing, prenatal screening, and precision medicine hold promise for changing the diagnostic and treatment paradigm for TSC and related mTORopathies. Herein, we explore the genetic and molecular mechanisms of TSC and other mTORopathies, emphasizing contemporary genetic methods in understanding and diagnosing the condition. [ABSTRACT FROM AUTHOR]

Published

2024

27. Anti-seizure gene therapy for focal cortical dysplasia.

Author

Barbanoj, Amanda Almacellas, Graham, Robert T, Maffei, Benito, Carpenter, Jenna C, Leite, Marco, Hoke, Justin, Hardjo, Felisia, Scott-Solache, James, Chimonides, Christos, Schorge, Stephanie, Kullmann, Dimitri M, Magloire, Vincent, and Lignani, Gabriele

Subjects

*FOCAL cortical dysplasia, *EPILEPSY, *GENE therapy, *SOMATIC mutation, *POTASSIUM channels, *TEMPORAL lobectomy, *FRONTAL lobe, *ELECTROPORATION therapy

Abstract

Focal cortical dysplasias are a common subtype of malformation of cortical development, which frequently presents with a spectrum of cognitive and behavioural abnormalities as well as pharmacoresistant epilepsy. Focal cortical dysplasia type II is typically caused by somatic mutations resulting in mammalian target of rapamycin (mTOR) hyperactivity, and is the commonest pathology found in children undergoing epilepsy surgery. However, surgical resection does not always result in seizure freedom, and is often precluded by proximity to eloquent brain regions. Gene therapy is a promising potential alternative treatment and may be appropriate in cases that represent an unacceptable surgical risk. Here, we evaluated a gene therapy based on overexpression of the Kv1.1 potassium channel in a mouse model of frontal lobe focal cortical dysplasia. An engineered potassium channel (EKC) transgene was placed under control of a human promoter that biases expression towards principal neurons (CAMK2A) and packaged in an adeno-associated viral vector (AAV9). We used an established focal cortical dysplasia model generated by in utero electroporation of frontal lobe neural progenitors with a constitutively active human Ras homolog enriched in brain (RHEB) plasmid, an activator of mTOR complex 1. We characterized the model by quantifying electrocorticographic and behavioural abnormalities, both in mice developing spontaneous generalized seizures and in mice only exhibiting interictal discharges. Injection of AAV9- CAMK2A -EKC in the dysplastic region resulted in a robust decrease (∼64%) in the frequency of seizures. Despite the robust anti-epileptic effect of the treatment, there was neither an improvement nor a worsening of performance in behavioural tests sensitive to frontal lobe function. AAV9- CAMK2A -EKC had no effect on interictal discharges or behaviour in mice without generalized seizures. AAV9- CAMK2A -EKC gene therapy is a promising therapy with translational potential to treat the epileptic phenotype of mTOR-related malformations of cortical development. Cognitive and behavioural co-morbidities may, however, resist an intervention aimed at reducing circuit excitability. [ABSTRACT FROM AUTHOR]

Published

2024

28. Junctional instability in neuroepithelium and network hyperexcitability in a focal cortical dysplasia human model

Author

Avansini, Simoni H, Puppo, Francesca, Adams, Jason W, Vieira, Andre S, Coan, Ana C, Rogerio, Fabio, Torres, Fabio R, Araújo, Patricia AOR, Martin, Mariana, Montenegro, Maria A, Yasuda, Clarissa L, Tedeschi, Helder, Ghizoni, Enrico, França, Andréa FEC, Alvim, Marina KM, Athié, Maria C, Rocha, Cristiane S, Almeida, Vanessa S, Dias, Elayne V, Delay, Lauriane, Molina, Elsa, Yaksh, Tony L, Cendes, Fernando, Lopes Cendes, Iscia, and Muotri, Alysson R

Subjects

Congenital Structural Anomalies, Pediatric, Neurosciences, Aetiology, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Underpinning research, Neurological, Brain, Epilepsy, Humans, Infant, Newborn, Malformations of Cortical Development, Malformations of Cortical Development, Group I, Neurons, focal cortical dysplasia, cortical organoids, cell adhesion, cell proliferation, neuronal network, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery

Abstract

Focal cortical dysplasia is a highly epileptogenic cortical malformation with few treatment options. Here, we generated human cortical organoids from patients with focal cortical dysplasia type II. Using this human model, we mimicked some focal cortical dysplasia hallmarks, such as impaired cell proliferation, the presence of dysmorphic neurons and balloon cells, and neuronal network hyperexcitability. Furthermore, we observed alterations in the adherens junctions zonula occludens-1 and partitioning defective 3, reduced polarization of the actin cytoskeleton, and fewer synaptic puncta. Focal cortical dysplasia cortical organoids showed downregulation of the small GTPase RHOA, a finding that was confirmed in brain tissue resected from these patients. Functionally, both spontaneous and optogenetically-evoked electrical activity revealed hyperexcitability and enhanced network connectivity in focal cortical dysplasia organoids. Taken together, our findings suggest a ventricular zone instability in tissue cohesion of neuroepithelial cells, leading to a maturational arrest of progenitors or newborn neurons, which may predispose to cellular and functional immaturity and compromise the formation of neural networks in focal cortical dysplasia.

Published

2022

29. De Novo GLI3 Pathogenic Variants May Cause Hypotonia and a Range of Brain Malformations Without Skeletal Abnormalities

Author

Siafa, Lyna, Argilli, Emanuela, Sherr, Elliott H, and Myers, Kenneth A

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Brain Disorders, Pediatric, Rare Diseases, Genetics, Neurosciences, Clinical Research, Congenital Structural Anomalies, Aetiology, 2.1 Biological and endogenous factors, Neurological, Brain, Child, Preschool, Hedgehog Proteins, Humans, Male, Malformations of Cortical Development, Muscle Hypotonia, Nerve Tissue Proteins, Phenotype, Polydactyly, Syndrome, Zinc Finger Protein Gli3, GLI3, Focal cortical dysplasia, Hypotonia, Agenesis of corpus callosum, Macrocephaly, Paediatrics and Reproductive Medicine, Neurology & Neurosurgery, Paediatrics

Abstract

BackgroundGLI3 encodes a zinc finger transcription factor that plays a role in the sonic hedgehog pathway. Germline pathogenic GLI3 variants are associated with Greig cephalopolysyndactyly and Pallister-Hall syndromes, two syndromes involving brain malformation and polydactyly.MethodsWe identified patients with pathogenic GLI3 variants and brain malformations in the absence of polydactyly or other skeletal malformation.ResultsTwo patients were identified. Patient #1 is a 4-year-old boy with hypotonia and global developmental delay. Brain MRI showed a focal cortical dysplasia, but he had no history of seizures. Genetic testing identified a de novo likely pathogenic GLI3 variant: c.4453A>T, p.Asn1485Tyr. Patient #2 is a 4-year-old boy with hypotonia, macrocephaly, and global developmental delay. His brain MRI showed partial agenesis of the corpus callosum, dilatation of the right lateral ventricle, and absent hippocampal commissure. Genetic testing identified a de novo pathogenic GLI3 variant: c.4236_4237del, p.Gln1414AspfsTer21. Neither patient had polydactyly or any apparent skeletal abnormality.ConclusionsThese patients widen the spectrum of clinical features that may be associated with GLI3 pathogenic variants to include hypotonia, focal cortical dysplasia, and other brain malformations, in the absence of apparent skeletal malformation. Further study is needed to determine if GLI3 pathogenic variants are a more common cause of focal cortical dysplasia or corpus callosum agenesis than presently recognized.

Published

2022

30. Modeling Somatic Mutations Associated With Neurodevelopmental Disorders in Human Brain Organoids

Author

Deb, Bipan K and Bateup, Helen S

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Biological Psychology, Psychology, Human Genome, Mental Health, Brain Disorders, Neurosciences, Neurodegenerative, Stem Cell Research, Stem Cell Research - Embryonic - Human, Pediatric, Stem Cell Research - Nonembryonic - Non-Human, Genetics, Stem Cell Research - Nonembryonic - Human, Epilepsy, Underpinning research, 1.1 Normal biological development and functioning, Aetiology, 2.1 Biological and endogenous factors, Neurological, human brain organoids, neurodevelopmental disorders, mTOR, somatic mutations, cortical development, malformations of cortical development, Clinical Sciences, Biochemistry and cell biology, Biological psychology

Abstract

Neurodevelopmental disorders (NDDs) are a collection of diseases with early life onset that often present with developmental delay, cognitive deficits, and behavioral conditions. In some cases, severe outcomes such as brain malformations and intractable epilepsy can occur. The mutations underlying NDDs may be inherited or de novo, can be gain- or loss-of-function, and can affect one or more genes. Recent evidence indicates that brain somatic mutations contribute to several NDDs, in particular malformations of cortical development. While advances in sequencing technologies have enabled the detection of these somatic mutations, the mechanisms by which they alter brain development and function are not well understood due to limited model systems that recapitulate these events. Human brain organoids have emerged as powerful models to study the early developmental events of the human brain. Brain organoids capture the developmental progression of the human brain and contain human-enriched progenitor cell types. Advances in human stem cell and genome engineering provide an opportunity to model NDD-associated somatic mutations in brain organoids. These organoids can be tracked throughout development to understand the impact of somatic mutations on early human brain development and function. In this review, we discuss recent evidence that somatic mutations occur in the developing human brain, that they can lead to NDDs, and discuss how they could be modeled using human brain organoids.

Published

2022

31. RARS1‐related developmental and epileptic encephalopathy

Author

Lin Wan, Dan Yu, Zhichao Li, Xinting Liu, Yan Liang, Huimin Yan, Gang Zhu, Bo Zhang, and Guang Yang

Subjects

developmental and epileptic encephalopathies, malformations of cortical development, pathogenic, RARS1 gene, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective Biallelic variants of RARS1, a gene that encodes the cytoplasmic tRNA synthetase for arginine (ArgRS), are associated with central nervous system (CNS) manifestations, such as hypomyelinating leukodystrophy‐9 and developmental and epileptic encephalopathy (DEE). This study aimed to better understand the RARS1 biallelic mutations and the associated phenotypes, particularly in patients with DEE. Methods We identified two patients with RARS1 biallelic mutations and functionally validated these mutations in vitro. Furthermore, we performed a review of the literature. Results Two patients with hypomyelinating leukodystrophy were found to have RARS1 biallelic variants (Patient 1: c.1535G>A (p.Arg512Gln) and c.1382G>A (p.Arg461His); Patient 2: homozygous variants c.5A>T (p.Asp2Val)). Patient 2 had a severe clinical manifestation of DEE. A review of the literature identified 27 patients from five studies. Among the 29 patients, intellectual disability, developmental delay, and hypomyelination were the common symptoms, while 13 of them exhibited DEE and malformations of cortical development. Of the 25 variants identified, c.5A>G (p.Asp2Gly) was identified in 10 patients. ArgRS protein expression and stability were substantially reduced in the two newly identified patients. Significance Patients with RARS1 biallelic mutations frequently exhibit DEE, a severe phenotype, along with hypomyelinating leukodystrophy. Besides its effects on the white matter, this mutation also influences cortical development. Moreover, the variants c.5A>T (p.Asp2Val), c.1382G>A (p.Arg461His), and c.1535G>A (p.Arg512Gln) are pathogenic and affect the expression of ArgRS by reducing the protein stability.

Published

2023

32. Malformations of cortical development: Fetal imaging and genetics

Author

Lin‐Lin Wang, Ping‐Shan Pan, Hui Ma, Chun He, Zai‐Long Qin, Wei He, Jing Huang, Shu‐Yin Tan, Da‐Hua Meng, Hong‐Wei Wei, and Ai‐Hua Yin

Subjects

fetal imaging, genetics, malformations of cortical development, whole‐exome sequencing, Genetics, QH426-470

Abstract

Abstract Background Malformations of cortical development (MCD) are a group of congenital disorders characterized by structural abnormalities in the brain cortex. The clinical manifestations include refractory epilepsy, mental retardation, and cognitive impairment. Genetic factors play a key role in the etiology of MCD. Currently, there is no curative treatment for MCD. Phenotypes such as epilepsy and cerebral palsy cannot be observed in the fetus. Therefore, the diagnosis of MCD is typically based on fetal brain magnetic resonance imaging (MRI), ultrasound, or genetic testing. The recent advances in neuroimaging have enabled the in‐utero diagnosis of MCD using fetal ultrasound or MRI. Methods The present study retrospectively reviewed 32 cases of fetal MCD diagnosed by ultrasound or MRI. Then, the chromosome karyotype analysis, single nucleotide polymorphism array or copy number variation sequencing, and whole‐exome sequencing (WES) findings were presented. Results Pathogenic copy number variants (CNVs) or single‐nucleotide variants (SNVs) were detected in 22 fetuses (three pathogenic CNVs [9.4%, 3/32] and 19 SNVs [59.4%, 19/32]), corresponding to a total detection rate of 68.8% (22/32). Conclusion The results suggest that genetic testing, especially WES, should be performed for fetal MCD, in order to evaluate the outcomes and prognosis, and predict the risk of recurrence in future pregnancies.

Published

2024

33. Cutting-edge applications of fetal MR neuro-imaging in clinical routine: a pictorial essay.

Author

Righini, Andrea, Tortora, Mario, Izzo, Giana, Doneda, Chiara, Arrigoni, Filippo, Palumbo, Giovanni, and Parazzini, Cecilia

Subjects

*BRAIN stem abnormalities, *BRAIN, *PRENATAL diagnosis, *MAGNETIC resonance imaging, *FETAL development, *NUCLEAR magnetic resonance spectroscopy, *NEURAL development, *CONTINUING education, *CEREBRAL cortex abnormalities, *DECISION making in clinical medicine, *PRENATAL care, *NEURORADIOLOGY, *FETAL ultrasonic imaging, *BRAIN stem

Abstract

Over time, fetal MR neuro-imaging has undergone continuous improvement; presently, it plays a pivotal role in the diagnosis of an expanding array of complex neurological conditions. Within this pictorial essay, our focus will be exclusively directed towards those cutting-edge clinical applications, which currently yield valuable diagnostic insights on a single case basis. Specifically, the pictorial examples will center on some abnormal entities and their features at an earlier fetal stage. [ABSTRACT FROM AUTHOR]

Published

2023

34. Genetic testing in children enrolled in epilepsy surgery program. A real-life study.

Author

Straka, Barbora, Splitkova, Barbora, Vlckova, Marketa, Tesner, Pavel, Rezacova, Hana, Krskova, Lenka, Koblizek, Miroslav, Kyncl, Martin, Maulisova, Alice, Bukacova, Katerina, Uhrova-Meszarosova, Anna, Musilova, Alena, Kudr, Martin, Ebel, Matyas, Belohlavkova, Anezka, Jahodova, Alena, Liby, Petr, Tichy, Michal, Jezdik, Petr, and Zamecnik, Josef

Subjects

EPILEPSY surgery, CHILDREN with epilepsy, GENETIC testing, CHILDHOOD epilepsy, PEDIATRIC surgery, TEMPORAL lobectomy, PARTIAL epilepsy

Abstract

Although genetic causes of drug-resistant focal epilepsy and selected focal malformations of cortical development (MCD) have been described, a limited number of studies comprehensively analysed genetic diagnoses in patients undergoing pre-surgical evaluation, their outcomes and the effect of genetic diagnosis on surgical strategy. We analysed a prospective cohort of children enrolled in epilepsy surgery program over January 2018–July 2022. The majority of patients underwent germline and/or somatic genetic testing. We searched for predictors of surgical outcome and positive result of germline genetic testing. Ninety-five patients were enrolled in epilepsy surgery program and 64 underwent resective epilepsy surgery. We ascertained germline genetic diagnosis in 13/74 patients having underwent germline gene testing (pathogenic or likely pathogenic variants in CHRNA4, NPRL3, DEPDC5, FGF12, GRIA2, SZT2, STXBP1) and identified three copy number variants. Thirty-five patients underwent somatic gene testing; we detected 10 pathogenic or likely pathogenic variants in genes SLC35A2, PTEN, MTOR, DEPDC5, NPRL3. Germline genetic diagnosis was significantly associated with the diagnosis of focal epilepsy with unknown seizure onset. Germline and somatic gene testing can ascertain a definite genetic diagnosis in a significant subgroup of patients in epilepsy surgery programs. Diagnosis of focal genetic epilepsy may tip the scales against the decision to proceed with invasive EEG study or surgical resection; however, selected patients with genetic focal epilepsies associated with MCD may benefit from resective epilepsy surgery and therefore, a genetic diagnosis does not disqualify patients from presurgical evaluation and epilepsy surgery. • Germline and somatic gene testing can ascertain genetic diagnosis in patients enrolled in epilepsy surgery programs. • Patients with focal genetic DRE not amenable for resective procedures represent an important subgroup of patients enrolled in presurgical evaluation. • Diagnosis of focal genetic DRE without MCD may reverse the decision to proceed with invasive EEG study or resection. • Selected patients with genetic focal epilepsies associated with MCD may benefit from resective epilepsy surgery. [ABSTRACT FROM AUTHOR]

Published

2023

35. Congenital Muscular Dystrophies

Author

McMillan, Hugh J, Oskoui, Maryam, Tarsy, Daniel, Series Editor, Narayanaswami, Pushpa, editor, and Liewluck, Teerin, editor

Published

2023

36. Clinical and Surgical Approach for Cerebral Cortical Dysplasia

Author

Santos, Marcelo Volpon, Garcia, Camila Araujo Bernardino, Hamad, Ana Paula Andrade, Costa, Ursula Thome, Sakamoto, Americo Ceiki, dos Santos, Antonio Carlos, Machado, Helio Rubens, Di Rocco, Concezio, Series Editor, Arraez, Miguel A., Editorial Board Member, Boop, Frederick A., Editorial Board Member, Froelich, Sebastien, Editorial Board Member, Kato, Yoko, Editorial Board Member, Pang, Dachling, Editorial Board Member, and Tu, Yong-Kwang, Editorial Board Member

Published

2023

37. Development and Developmental Disorders of the Cerebral Cortex

Author

ten Donkelaar, Hans J., Vasung, Lana, Molnár, Zoltán, Aronica, Eleonora, Lammens, Martin, van Bokhoven, Hans, Ulzen, Karin Kamphuis-van, Hori, Akira, ten Donkelaar, Hans J., Lammens, Martin, Hori, Akira, Aronica, Eleonora, With Contrib. by, Bekker, Mireille N., With Contrib. by, Bugiani, Marianna, With Contrib. by, Copp, Andrew J., With Contrib. by, Cruysberg, Johannes R. M., With Contrib. by, den Dunnen, Wilfred F.A., With Contrib. by, Fritzsch, Bernd, With Contrib. by, Itoh, Kyoko, With Contrib. by, Kamphuis- van Ulzen, Karin, With Contrib. by, Mathijssen, Irene M.J., With Contrib. by, Miyata, Hajime, With Contrib. by, Molnár, Zoltán, With Contrib. by, Pennings, Ronald, With Contrib. by, Renier, Willy O., With Contrib. by, Shiota, Kohei, With Contrib. by, Smits, Jeroen, With Contrib. by, Takakuwa, Tetsuya, With Contrib. by, Trainor, Paul A., With Contrib. by, van Bokhoven, Hans, With Contrib. by, van der Vliet, Ton, With Contrib. by, Vasung, Lana, With Contrib. by, Vermeij-Keers, Christl, With Contrib. by, Wesseling, Pieter, With Contrib. by, Willemsen, Michèl, With Contrib. by, Yamada, Shigehito, With Contrib. by, and Gruter, Ad, Illustrations by

Published

2023

38. The zinc finger/RING domain protein Unkempt regulates cognitive flexibility

Author

Vinsland, Elin, Baskaran, Pranetha, Mihaylov, Simeon R, Hobbs, Carl, Wood, Hannah, Bouybayoune, Ihssane, Shah, Kriti, Houart, Corinne, Tee, Andrew R, Murn, Jernej, Fernandes, Cathy, and Bateman, Joseph M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Neurosciences, Tuberous Sclerosis, Brain Disorders, Rare Diseases, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Neurological, Generic health relevance, Mental health, Animals, Cerebellum, Cognition, DNA-Binding Proteins, Drosophila, HeLa Cells, Hippocampus, Humans, Malformations of Cortical Development, Mechanistic Target of Rapamycin Complex 1, Mice, Mice, Inbred C57BL, Mice, Knockout, Neurogenesis, Signal Transduction, Zinc Fingers, Hela Cells

Abstract

Correct orchestration of nervous system development is a profound challenge that involves coordination of complex molecular and cellular processes. Mechanistic target of rapamycin (mTOR) signaling is a key regulator of nervous system development and synaptic function. The mTOR kinase is a hub for sensing inputs including growth factor signaling, nutrients and energy levels. Activation of mTOR signaling causes diseases with severe neurological manifestations, such as tuberous sclerosis complex and focal cortical dysplasia. However, the molecular mechanisms by which mTOR signaling regulates nervous system development and function are poorly understood. Unkempt is a conserved zinc finger/RING domain protein that regulates neurogenesis downstream of mTOR signaling in Drosophila. Unkempt also directly interacts with the mTOR complex I component Raptor. Here we describe the generation and characterisation of mice with a conditional knockout of Unkempt (UnkcKO) in the nervous system. Loss of Unkempt reduces Raptor protein levels in the embryonic nervous system but does not affect downstream mTORC1 targets. We also show that nervous system development occurs normally in UnkcKO mice. However, we find that Unkempt is expressed in the adult cerebellum and hippocampus and behavioural analyses show that UnkcKO mice have improved memory formation and cognitive flexibility to re-learn. Further understanding of the role of Unkempt in the nervous system will provide novel mechanistic insight into the role of mTOR signaling in learning and memory.

Published

2021

39. The generation and properties of human cortical organoids as a disease model for malformations of cortical development.

Author

Xiu-Ping Zhang, Xi-Yuan Wang, Shu-Na Wang, and Chao-Yu Miao

Published

2023

40. ESTUDO TOPOGRÁFICO DOS GIROS E SULCOS E DO NERVO FACIAL EM CADÁVERES DE FETOS HUMANOS.

Author

Cecília Gonçalves-Martins, Maria, Mendes Ataíde, Cássia, Torres-da-Silva, Kelly Regina, Rafaela da Silva Rodrigues Machado, Aline, Martins Machado, Alex, and Valério da Silva, André

Abstract

Copyright of Arquivos de Ciências da Saúde da UNIPAR is the property of Associacao Paranaense de Ensino e Cultura and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

41. RARS1‐related developmental and epileptic encephalopathy.

Author

Wan, Lin, Yu, Dan, Li, Zhichao, Liu, Xinting, Liang, Yan, Yan, Huimin, Zhu, Gang, Zhang, Bo, and Yang, Guang

Abstract

Objective: Biallelic variants of RARS1, a gene that encodes the cytoplasmic tRNA synthetase for arginine (ArgRS), are associated with central nervous system (CNS) manifestations, such as hypomyelinating leukodystrophy‐9 and developmental and epileptic encephalopathy (DEE). This study aimed to better understand the RARS1 biallelic mutations and the associated phenotypes, particularly in patients with DEE. Methods: We identified two patients with RARS1 biallelic mutations and functionally validated these mutations in vitro. Furthermore, we performed a review of the literature. Results: Two patients with hypomyelinating leukodystrophy were found to have RARS1 biallelic variants (Patient 1: c.1535G>A (p.Arg512Gln) and c.1382G>A (p.Arg461His); Patient 2: homozygous variants c.5A>T (p.Asp2Val)). Patient 2 had a severe clinical manifestation of DEE. A review of the literature identified 27 patients from five studies. Among the 29 patients, intellectual disability, developmental delay, and hypomyelination were the common symptoms, while 13 of them exhibited DEE and malformations of cortical development. Of the 25 variants identified, c.5A>G (p.Asp2Gly) was identified in 10 patients. ArgRS protein expression and stability were substantially reduced in the two newly identified patients. Significance: Patients with RARS1 biallelic mutations frequently exhibit DEE, a severe phenotype, along with hypomyelinating leukodystrophy. Besides its effects on the white matter, this mutation also influences cortical development. Moreover, the variants c.5A>T (p.Asp2Val), c.1382G>A (p.Arg461His), and c.1535G>A (p.Arg512Gln) are pathogenic and affect the expression of ArgRS by reducing the protein stability. [ABSTRACT FROM AUTHOR]

Published

2023

42. Modeling genetic mosaicism of the mammalian target of rapamycin pathway in the cerebral cortex.

Author

Feliciano, David M.

Subjects

CEREBRAL cortex, GENETIC models, MOSAICISM, SOMATIC mutation, RAPAMYCIN

Abstract

The capacity to integrate complex sensory cues and to coordinate an adequate behavioral response often requires integration of information within the outermost part of the mammalian brain called the cerebral cortex. The laminar and columnar cytoarchitecture of the cerebral cortex contains neurons that establish proximal and distal connections. Genetically encoded transcription factors ensure the generation of the appropriate number, types, locations, and connections of cortical neurons. However, somatic mutations that alter cortical development provide evidence that post-transcriptional regulation is equally important. An example is that somatic mutations in regulators and substrates of mammalian target of rapamycin (mTOR) are associated with neuropsychiatric and neurological manifestations. mTOR is a protein kinase that phosphorylates substrates that control mRNA translation and anabolic processes. Numerous challenges remain in uncovering the mechanisms by which mutations in regulators and substrates of mTOR impact behavior. Here, evidence is provided that somatic mosaicism can be modeled in the developing murine cerebral cortex which may have clinical significance. [ABSTRACT FROM AUTHOR]

Published

2023

43. Downregulation of Microcephaly-Causing Genes as a Mechanism for ZIKV Teratogenesis: A Meta-analysis of RNA-Seq Studies.

Author

Gomes, Julia A., Sgarioni, Eduarda, Kowalski, Thayne W., Giudicelli, Giovanna C., Recamonde-Mendoza, Mariana, Fraga, Lucas R., Schüler-Faccini, Lavínia, and Vianna, Fernanda S. L.

Abstract

Zika virus (ZIKV) is a neurotropic teratogen that causes congenital Zika syndrome (CZS), characterized by brain and eye anomalies. Impaired gene expression in neural cells after ZIKV infection has been demonstrated; however, there is a gap in the literature of studies comparing whether the differentially expressed genes in such cells are similar and how it can cause CZS. Therefore, the aim of this study was to compare the differential gene expression (DGE) after ZIKV infection in neural cells through a meta-analysis approach. Through the GEO database, studies that evaluated DGE in cells exposed to the Asian lineage of ZIKV versus cells, of the same type, not exposed were searched. From the 119 studies found, five meet our inclusion criteria. Raw data of them were retrieved, pre-processed, and evaluated. The meta-analysis was carried out by comparing seven datasets, from these five studies. We found 125 upregulated genes in neural cells, mainly interferon-stimulated genes, such as IFI6, ISG15, and OAS2, involved in the antiviral response. Furthermore, 167 downregulated, involved with cellular division. Among these downregulated genes, classic microcephaly-causing genes stood out, such as CENPJ, ASPM, CENPE, and CEP152, demonstrating a possible mechanism by which ZIKV impairs brain development and causes CZS. [ABSTRACT FROM AUTHOR]

Published

2023

44. Focal cortical dysplasia imaging discrepancies between MRI and FDG-PET: Unique association with temporal lobe location

Author

Yokota, Hajime, Uetani, Hiroyuki, Tatekawa, Hiroyuki, Hagiwara, Akifumi, Morimoto, Emiko, Linetsky, Michael, Yoo, Bryan, Ellingson, Benjamin M, and Salamon, Noriko

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Biomedical Imaging, 4.2 Evaluation of markers and technologies, Adolescent, Epilepsy, Temporal Lobe, Fluorodeoxyglucose F18, Humans, Magnetic Resonance Imaging, Malformations of Cortical Development, Positron-Emission Tomography, Retrospective Studies, Temporal Lobe, Focal cortical dysplasia, MRI, FDG PET, Hypometabolism, Temporal lobe, Neurosciences, Psychology, Neurology & Neurosurgery, Clinical sciences, Biological psychology

Abstract

PurposeAlthough magnetic resonance imaging (MRI) and 18F-2-fluorodeoxyglucose-positron emission tomography (FDG-PET) are used for pre-surgical assessment of focal cortical dysplasia (FCD), they often disagree. This study aimed to identify factors that contribute to discrepancies in FCD imaging between MRI and FDG-PET.MethodsSixty-two patients (mean age, 18.9 years) with a FCD type I or II were retrospectively selected. These patients were visually categorized into two groups: 1) extent of PET abnormality larger than MRI abnormality and 2) vice versa or equivalent. Predictive factors of these two groups were analyzed by multivariate logistic regression. The extent of hypometabolic transient zone surrounding FCDs and their mean standardized uptake values were measured and compared by the Mann-Whitney U-test.ResultsFCDs were detected on MRI and PET in 46 and 55 patients, respectively, whereas no abnormality was detected in 4 patients. The PET hypometabolic areas were larger than the MRI abnormal areas in 26 patients (88 % in the temporal lobe), whereas the PET hypometabolic areas were equivalent or smaller than the MRI abnormal areas in 32 patients (69 % in the frontal lobe). The temporal lobe location was an independent predictor for differentiating the two groups (OR = 35.2, 95 % CI = 6.81-168.0, P < .001). The temporal lobe lesions had significantly wider transient zones and lower standardized uptake values than those in the other lobes (P < .001, both).ConclusionThe discrepancies between MRI and FDG-PET findings of FCD were associated with temporal lobe location.

Published

2020

45. A Pilot Study To Evaluate The Effects of Everolimus on Brain mTOR Activity and Cortical Hyperexcitability in TSC and FCD

Published

2021

46. A Study Investigating the Anti-epileptic Efficacy of Afinitor (Everolimus) in Patients With Refractory Seizures Who Have Focal Cortical Dysplasia Type II (FCD II)

Published

2021

47. Cat‐Ear‐Line: A Sonographic Sign of Cortical Development?

Author

Matsuzawa, Nana, Poon, Liona C., Machida, Megumi, Nakamura, Takako, Uenishi, Kohtaro, Wah, Yi Man, Moungmaithong, Sakita, Itakura, Atsuo, Chiyo, Hideaki, and Pooh, Ritsuko K.

Subjects

FETAL brain, FETUS, ANATOMICAL planes, FETAL ultrasonic imaging, CONTROL groups, ULTRASONIC imaging

Abstract

Objectives: Diagonal echogenic lines outside the lateral ventricle have often been observed in the anterior coronal planes of the normal fetal brain by neurosonography. We have observed abnormal shapes of these echogenic lines in cases of malformation of cortical development (MCD). We named the ultrasound finding "cat‐ear‐line" (CEL). This study aimed to examine how and when CEL develops in normal cases compared with MCD cases. Methods: We retrospectively examined the fetal brain volume dataset acquired through transvaginal 3D neurosonography of 575 control cases and 39 MCD cases from 2014 to 2020. We defined CEL as the hyperechogenic continuous lines through subplate (SP) and intermediate zone (IZ), pre‐CEL as the lines that existed only within the SP, and abnormal CEL as a mass‐like or mosaic shadow‐like structure that existed across the SP and IZ. All fetuses in the MCD group had some neurosonographic abnormalities and were ultimately diagnosed with MCD. Results: The CEL was detected in 97.9% (369/377) of the control group from 19 to 30 weeks. The CEL visualization rate of the MCD group in the same period was 40.0% (14/35) which was significantly lower than that of the control group (P <.001). Conclusions: From this study, it appears that the CEL is an ultrasound finding observed at and beyond 19 weeks in a normally developing fetus. In some MCD cases, pre‐CEL at and beyond 19 weeks or abnormal CEL was observed. Maldeveloped CEL at mid‐trimester may help identify cases at‐risk of subsequent MCD. [ABSTRACT FROM AUTHOR]

Published

2023

48. Periventricular nodular heterotopia associated with a "transmantle band sign" in patients with epilepsy.

Author

Hainc, Nicolin, Alcaide‐Leon, Paula, Willinsky, Robert A., Krings, Timo, and Nicholson, Patrick

Subjects

*PEOPLE with epilepsy, *MAGNETIC resonance imaging

Abstract

Objective: Previous studies using advanced magnetic resonance imaging (MRI) techniques have documented abnormal transmantle bands connecting ectopic nodules to overlying cortex in patients with periventricular nodular heterotopia (PNH). We describe a similar finding using conventional MRI techniques. Methods: Patients were identified by means of a full‐text search of radiological reports. All scanning was performed using conventional sequences at 3 Tesla (3T). Scans were reviewed by three neuroradiologists, and we characterized imaging features based on type of PNH and cortical irregularities associated with the transmantle band. Results: A total 57 PNH patients were reviewed, of whom 41 demonstrated a "transmantle band" connecting the nodule to the overlying cortex. One or more periventricular heterotopic nodules was present in all 41 patients—this was bilateral in 29 of 41 (71%) and unilateral in the remaining 29%. In many cases there was more than one such band, and in some cases this band was nodular. In 19 of the cases, the cortex to which the band connected was abnormal, showing thinning in 4 cases, thickening in 5 cases, and polymicrogyria in another 10. Significance: The transmantle band can be seen frequently in both unilateral and bilateral cases of PNH and can be visualized with conventional 3T MRI sequences. The band highlights the underlying neuronal migration issues at play in the pathogenesis of this disorder, but its underlying role in the complex, patient‐specific epileptogenic networks in this cohort has yet to be determined and warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2023

49. PET/MRI Applications in Pediatric Epilepsy.

Author

Pedersen, Christian, Aboian, Mariam, Messina, Steven A., Daldrup-Link, Heike, and Franceschi, Ana M.

Subjects

*POSITRON emission tomography, *MAGNETIC resonance imaging, *FOCAL cortical dysplasia, *EPILEPSY, *HIPPOCAMPAL sclerosis

Abstract

Epilepsy neuroimaging assessment requires exceptional anatomic detail, physiologic and metabolic information. Magnetic resonance (MR) protocols are often time-consuming necessitating sedation and positron emission tomography (PET)/computed tomography (CT) comes with a significant radiation dose. Hybrid PET/MRI protocols allow for exquisite assessment of brain anatomy and structural abnormalities, in addition to metabolic information in a single, convenient imaging session, which limits radiation dose, sedation time, and sedation events. Brain PET/MRI has proven especially useful for accurate localization of epileptogenic zones in pediatric seizure cases, providing critical additional information and guiding surgical decision making in medically refractory cases. Accurate localization of seizure focus is necessary to limit the extent of the surgical resection, preserve healthy brain tissue, and achieve seizure control. This review provides a systematic overview with illustrative examples demonstrating the applications and diagnostic utility of PET/MRI in pediatric epilepsy. [ABSTRACT FROM AUTHOR]

Published

2023

50. Case report: Genotype and phenotype of DYNC1H1-related malformations of cortical development: a case report and literature review.

Author

Wen-Rong Ge, Pei-Pei Fu, Wei-Na Zhang, Bo Zhang, Ying-Xue Ding, and Guang Yang

Subjects

LITERATURE reviews, LENNOX-Gastaut syndrome, MAGNETIC resonance imaging, CENTRAL nervous system, HUMAN abnormalities, GENOTYPES

Abstract

Background: Mutations in the dynein cytoplasmic 1 heavy chain 1 (DYNC1H1) gene are linked to malformations of cortical development (MCD), which may be accompanied by central nervous system (CNS) manifestations. Here, we present the case of a patient with MCD harboring a variant of DYNC1H1 and review the relevant literature to explore genotype-phenotype relationships. Case presentation: A girl having infantile spasms, was unsuccessfully administered multiple antiseizure medications and developed drug-resistant epilepsy. Brain magnetic resonance imaging (MRI) at 14 months-of-age revealed pachygyria. At 4 years-of-age, the patient exhibited severe developmental delay and mental retardation. A de novo heterozygousmutation (p.Arg292Trp) in theDYNC1H1 gene was identified. A search of multiple databases, including PubMed and Embase, using the search strategy DYNC1H1 AND [malformations of cortical development OR seizure OR intellectual OR clinical symptoms] up to June 2022, identified 129 patients from 43 studies (including the case presented herein). A review of these cases showed that patients with DYNC1H1-related MCD had higher risks of epilepsy (odds ratio [OR] = 33.67, 95% confidence interval [CI] = 11.59, 97.84) and intellectual disability/developmental delay (OR = 52.64, 95% CI = 16.27, 170.38). Patients with the variants in the regions encoding the protein stalk or microtubule-binding domain had the most prevalence of MCD (95%). Conclusion: MCD, particularly pachygyria, is a common neurodevelopmental disorder in patients with DYNC1H1 mutations. Literature searches reveales that most (95%) patients who carried mutations in the protein stalk or microtubule binding domains exhibited DYNC1H1-related MCD, whereas almost two-thirds of patients (63%) who carried mutations in the tail domain did not display MCD. Patients with DYNC1H1 mutations may experience central nervous system (CNS) manifestations due to MCD. [ABSTRACT FROM AUTHOR]

Published

2023