Your search keyword '"brain malformation"' showing total 363 results

1. Lobar holoprosencephaly with associated meningocele: A rare case report of a 25-year-old patient with multiple seizures

Author

Parishmita Barman, MBBS, Gaurav Vedprakash Mishra, MBBS, MD, G Murugan, MBBS, MD, Piyoosh Priyadarshee, MBBS, Mayur Wanjari, MSc, and Anshul Sood, MBBS

Subjects

Brain malformation, Holoprosencephaly, Interhemispheric fissure, Lobar, Meningocele, Seizures, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Lobar holoprosencephaly (HPE) represents the mildest form of HPE, featuring an interhemispheric fissure extending along most of the entire midline, with the thalami remaining unfused. Lobar HPE is usually diagnosed in the prenatal stage or infancy; however, cases of adult-onset are exceedingly rare. Here, we present a 25-year-old patient who was presented with multiple episodes of seizures and was subsequently diagnosed with lobar HPE accompanied by a meningocele. By shedding light on this rare brain malformation, we hope to raise awareness among healthcare professionals and stimulate further research into the pathogenesis, clinical course, and management of adult-onset HPE.

Published

2025

2. Intrauterine Acquired Congenital Herpes Simplex Virus Infection in a Newborn.

Author

Ocampo-Chih, Claudia, Weitkamp, Alara S., Weitkamp, Joern-Hendrik, and Gillam-Krakauer, Maria

Subjects

CESAREAN section, PREGNANT women, INFLUENZA, HERPESVIRUS diseases, VERTICAL transmission (Communicable diseases), UTERINE hemorrhage, FETAL diseases, FETAL development

Abstract

Aim: We present a fatal case of congenital herpes simplex virus (HSV) infection following exposure of a non-immune mother by her partner during critical fetal development. Background: Globally, neonatal HSV infection affects 1 in 10,000 births. The most common mode of transmission is perinatally through passage through the vaginal canal (85%), followed by postnatal acquisition (10%). Rarely, intrauterine infection can occur (5%) resulting in congenital HSV, presenting with a classic triad of skin desquamation, chorioretinitis and brain malformations including hydrocephaly, anencephaly, and porencephaly. Case description: A 30-week pregnant woman with a history of flu-like illness at 18 weeks presented with decreased fetal movement and vaginal bleeding. Initial evaluation showed echogenic bowel on ultrasound. At 30 weeks, polyhydramnios and fetal brain abnormalities were noted. A c-section was performed, and the infant required resuscitation. The infant's father reported a history of genital HSV outbreaks and HSV-2 was detected in the infant's blood. The infant had extensive skin desquamation, seizures, and succumbed to fatal brain malformations. Conclusion: While maternal treatment with antiviral medication and cesarean section are effective in preventing perinatal HSV infection, congenital infection in the first or second trimester of pregnancy with devastating consequences for the fetus can occur in women without HSV immunity. Clinical significance: Given the lack of available HSV immunization, protection of non-immune pregnant individuals from HSV exposure is currently the only preventive measure against congenital HSV disease. [ABSTRACT FROM AUTHOR]

Published

2024

3. A case of congenital malformation of the brain in a newborn on the background of hereditary metabolic disorders

Author

A. A. Lebedenko, A. A. Afonin, T. B. Kozyreva, K. I. Lazareva, and L. I. Monat

Subjects

newborn, brain malformation, children, peroxisome diseases, Medicine (General), R5-920

Abstract

A clinical observation of congenital malformation of the brain in a newborn child is presented. Diagnosis and comprehensive treatment of newborns with such pathology is extremely difficult due to the variety of causes that cause irreversible structural defects of brain tissue in violation of its normal pre- or postnatal development. The uniqueness of this case is the postnatal detection of multiple malformations in a newborn child against the background of a complex clarification of the nature of hereditary metabolic disorders. Unfortunately, in this clinical case, the relatively early diagnosis of peroxisomal pathology did not allow a complete clinical diagnosis to be made quickly and specific therapy to be given to the child, which made the prognosis of the disease more difficult. Only a further in-depth examination (consultations of a geneticist, neurologists, MRI of the brain, medical and genetic research) allowed us to clarify the nature of the pathology. Delayed clarification and confirmation of the cause of encephalomyelopathy (peroxisomal disease) is associated with the material and technical capabilities of children's hospitals, although this did not affect the timing of the start and volume of complex symptomatic therapy for the child.

Published

2024

4. Corpus Callosum Malformations

Author

Ramirez Zegarra, Ruben, Dall’Asta, Andrea, Volpe, Nicola, Di Pasquo, Elvira, Ghi, Tullio, De Robertis, Valentina, Series Editor, Volpe, Paolo, editor, and Ghi, Tullio, editor

Published

2024

5. Lissencephaly

Author

Mehmood, Qasim, Iqbal, Hafiz Muhammad, Naz, Saira, Ali, Danish, AlAli, Khaled Fares, editor, and Hashim, Hashim Talib, editor

Published

2024

6. Autosomal recessive primary microcephaly type 2 associated with a novel WDR62 splicing variant that disrupts the expression of, the functional transcript.

Author

Haizhu Chen, Ying Zheng, Hua Wu, Naiqing Cai, Guorong Xu, Yi Lin, and Jin-Jing Li

Subjects

MICROCEPHALY, EPILEPSY, STOP codons, MAGNETIC resonance imaging, GENETIC testing, POLYMERASE chain reaction

Abstract

Background: Autosomal recessive primary microcephaly (MCPH) is a rare neurodevelopmental disorder characterized primarily by congenital microcephaly and intellectual disability but without extra-central nervous system malformations. This investigation aimed to elucidate the genetic underpinnings of microcephaly in a patient from a Chinese consanguineous family. Methods: A comprehensive clinical assessment, including brain magnetic resonance imaging (MRI), electroencephalogram (EEG), and genetic analyses, was conducted to evaluate the patient's condition. Whole-exome sequencing (WES) was employed to identify the causative gene, followed by Sanger sequencing, to confirm the mutation and its segregation within the family. Reverse transcript polymerase chain reaction (RT-PCR) was utilized to detect changes in splicing. Western blot was employed to reveal the difference of protein expression level between the wild-type and mutant WDR62 in vitro. Results: The patient exhibited classic MCPH symptoms, including microcephaly, recurrent epilepsy, delayed psychomotor development, and intellectual disability. Additionally, asymmetrical limb length was noted as a prominent feature. MRI findings indicated reduced brain volume with cortical malformations, while EEG demonstrated heightened sharp wave activity. A molecular analysis uncovered a novel homozygous variant c.4154-6 C > G in the WDR62 intron, and a functional analysis confirmed the pathogenicity of this mutation, resulting in the formation of an abnormal transcript with premature termination codons. Conclusion: This study enhances our understanding of the genetic heterogeneity associated with MCPH and highlights the pivotal role of genetic testing in the diagnosing and managing of rare neurodevelopmental disorders. Furthermore, it highlights the potential of emerging genetic therapies in treating conditions such as MCPH2. [ABSTRACT FROM AUTHOR]

Published

2024

7. Results of the Treatment and Evaluation of Quality of Life in Patients with High-Grade Cerebral Arteriovenous Malformations after Endovascular Embolization

Author

Dmytro V. Shchehlov, Oleh Ye. Svyrydiuk, Mykola B. Vyval, Svitlana V. Chebanyuk, Igor V. Altman, and Maryna Yu. Mamonova

Subjects

brain malformation, endovascular treatment, intracranial hemorrhage, outcome, modified rankin scale, eq-5d-3l questionnaire, Surgery, RD1-811

Abstract

Treatment options for cerebral arteriovenous malformations (cAVMs) may include radiosurgery, endovascular embolization, microsurgical removal, or a combination thereof. However, treatment of high-grade (Spetzler–Martin grades IV and V) cAVMs remains extremely challenging when aiming complete occlusion. The aim. To study the safety of the endovascular embolization in patients with high-grade cAVMs and its impact on the quality of life (QoL). Materials and methods. Between 2012 and 2022, 174 patients with cAVMs were endovascularly treated at Research and Practical Center for Endovascular Neuroradiology of the National Academy of Medical Sciences of Ukraine with an average follow-up of more than 9 months. Of these patients, 11 (6.3%) and 6 (3.4%) had Spetzler–Martin grade IV and grade V cAVM, respectively. Outcomes after surgical procedures were assessed and QoL was evaluated using standardized EQ-5D-3L questionnaire. Results. Five (29.4%) patients had intracerebral hemorrhage, 6 (35.3%) had seizures, 5 (29.4%) had other non-hemorrhagic manifestations and 1 (5.9%) patient had a neurological deficit as a result of cerebral steal. In 17 patients, 28 embolization sessions were performed, and in nearly all of them (96%) N-butyl cyanoacrylate was used as the preferred embolic agent. There were no procedural complications. After embolization, three (17.6%) patients had neurologic deterioration (temporary in 2 patients and persistent in 1 patient). All the patients were alive at the nearest follow-up. After embolization, 2 (11.7%) patients had recurrent hemorrhage, but without additional morbidity. Two of the five patients after cAVM rupture had some degree of disability. With regard to non-hemorrhagic debut, 8 (72%) patients reported symptom reduction. QoL assessment with EQ-5D-3L questionnaire revealed that severe problems were present in 2 (33.3%) of 6 patients after intracerebral hemorrhage and 2 (18.2%) of 11 patients with non-hemorrhagic manifestation. The mean Visual Analogue Scale score for the hemorrhagic group was 76.4 ± 15 points, while the non-hemorrhagic group’s score was 85.2 ± 14 points. Conclusions. Endovascular embolization, which aims to occlude the bleeding site or improve cerebral steal with a manageable consequence profile, can be used safely in carefully selected patients with high-grade cAVMs. Our experience shows that QoL can be satisfactory in 3/4 of patients after high-grade cAVM embolization, and more data from real-world practice are highly needed to determine the best method and time for improving patient outcomes.

Published

2023

8. Congenital Zika Virus Infection Impairs Corpus Callosum Development.

Author

Christoff, Raissa Rilo, Quintanilha, Jefferson H., Ferreira, Raiane Oliveira, Ferreira, Jessica C. C. G., Guimarães, Daniel Menezes, Valério-Gomes, Bruna, Higa, Luiza M., Rossi, Átila D., Bellio, Maria, Tanuri, Amilcar, Lent, Roberto, and Garcez, Patricia Pestana

Subjects

*ZIKA virus infections, *CORPUS callosum, *NEUROGLIA, *ZIKA virus, *PROGENITOR cells, *DEVELOPMENTAL neurobiology

Abstract

Congenital Zika syndrome (CZS) is a set of birth defects caused by Zika virus (ZIKV) infection during pregnancy. Microcephaly is its main feature, but other brain abnormalities are found in CZS patients, such as ventriculomegaly, brain calcifications, and dysgenesis of the corpus callosum. Many studies have focused on microcephaly, but it remains unknown how ZIKV infection leads to callosal malformation. To tackle this issue, we infected mouse embryos in utero with a Brazilian ZIKV isolate and found that they were born with a reduction in callosal area and density of callosal neurons. ZIKV infection also causes a density reduction in PH3+ cells, intermediate progenitor cells, and SATB2+ neurons. Moreover, axonal tracing revealed that callosal axons are reduced and misrouted. Also, ZIKV-infected cultures show a reduction in callosal axon length. GFAP labeling showed that an in utero infection compromises glial cells responsible for midline axon guidance. In sum, we showed that ZIKV infection impairs critical steps of corpus callosum formation by disrupting not only neurogenesis, but also axon guidance and growth across the midline. [ABSTRACT FROM AUTHOR]

Published

2023

9. Missense variants in DPYSL5 cause a neurodevelopmental disorder with corpus callosum agenesis and cerebellar abnormalities

Author

Jeanne, Médéric, Demory, Hélène, Moutal, Aubin, Vuillaume, Marie-Laure, Blesson, Sophie, Thépault, Rose-Anne, Marouillat, Sylviane, Halewa, Judith, Maas, Saskia M, Motazacker, M Mahdi, Mancini, Grazia MS, van Slegtenhorst, Marjon A, Andreou, Avgi, Cox, Helene, Vogt, Julie, Laufman, Jason, Kostandyan, Natella, Babikyan, Davit, Hancarova, Miroslava, Bendova, Sarka, Sedlacek, Zdenek, Aldinger, Kimberly A, Sherr, Elliott H, Argilli, Emanuela, England, Eleina M, Audebert-Bellanger, Séverine, Bonneau, Dominique, Colin, Estelle, Denommé-Pichon, Anne-Sophie, Gilbert-Dussardier, Brigitte, Isidor, Bertrand, Küry, Sébastien, Odent, Sylvie, Redon, Richard, Khanna, Rajesh, Dobyns, William B, Bézieau, Stéphane, Honnorat, Jérôme, Lohkamp, Bernhard, Toutain, Annick, and Laumonnier, Frédéric

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Rare Diseases, Neurosciences, Brain Disorders, Pediatric, Intellectual and Developmental Disabilities (IDD), Mental Health, Aetiology, 2.1 Biological and endogenous factors, Mental health, Neurological, Adult, Agenesis of Corpus Callosum, Cerebellum, Child, Child, Preschool, Female, Humans, Hydrolases, Intellectual Disability, Male, Microtubule-Associated Proteins, Models, Molecular, Mutation, Missense, Neurodevelopmental Disorders, Tubulin, Young Adult, DPYSL5, brain malformation, corpus callosum agenesis, de novo missense variants, dendrite branching, neurodevelopmental disorder, primary neuronal cultures, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

The collapsin response mediator protein (CRMP) family proteins are intracellular mediators of neurotrophic factors regulating neurite structure/spine formation and are essential for dendrite patterning and directional axonal pathfinding during brain developmental processes. Among this family, CRMP5/DPYSL5 plays a significant role in neuronal migration, axonal guidance, dendrite outgrowth, and synapse formation by interacting with microtubules. Here, we report the identification of missense mutations in DPYSL5 in nine individuals with brain malformations, including corpus callosum agenesis and/or posterior fossa abnormalities, associated with variable degrees of intellectual disability. A recurrent de novo p.Glu41Lys variant was found in eight unrelated patients, and a p.Gly47Arg variant was identified in one individual from the first family reported with Ritscher-Schinzel syndrome. Functional analyses of the two missense mutations revealed impaired dendritic outgrowth processes in young developing hippocampal primary neuronal cultures. We further demonstrated that these mutations, both located in the same loop on the surface of DPYSL5 monomers and oligomers, reduced the interaction of DPYSL5 with neuronal cytoskeleton-associated proteins MAP2 and βIII-tubulin. Our findings collectively indicate that the p.Glu41Lys and p.Gly47Arg variants impair DPYSL5 function on dendritic outgrowth regulation by preventing the formation of the ternary complex with MAP2 and βIII-tubulin, ultimately leading to abnormal brain development. This study adds DPYSL5 to the list of genes implicated in brain malformation and in neurodevelopmental disorders.

Published

2021

10. Infantile epileptic spasms syndrome in a child with lissencephaly associated with de novo PAFAH1B1 variant and coincidental CMV infection

Author

Nga Ying Eng and Duyu A. Nie

Subjects

Infantile spasms, Encephalopathy, Cytomegalovirus, Brain malformation, Epilepsy, Neurology. Diseases of the nervous system, RC346-429, Neurophysiology and neuropsychology, QP351-495

Abstract

Type 1 lissencephaly is a brain malformation characterized by agyria and pachygyria and is known to be caused by congenital infections and genetic variations. Here we present a case of a 4-month-old female with new onset infantile epileptic spasms syndrome (IESS) with initial etiology concerned for congenital cytomegalovirus (cCMV) due to a positive urine CMV PCR and maternal viral syndrome during pregnancy. Her brain MRI was significant for type 1 lissencephaly without other radiographical features of cCMV. The patient initially responded to high dose Prednisolone but had relapse of spasms at 9-month-old and required an ACTH course. She later developed generalized tonic seizures and focal impaired awareness seizures. Subsequent whole exome sequencing (WES) trio revealed a de novo PAFAH1B1 (c.405G > A, p.W135*) heterozygous nonsense variant which is pathogenic and thus solved the diagnostic puzzle. This case demonstrates that the absence of cCMV stigmata should raise concern for alternative etiology in cases of lissencephaly and the importance of genetic evaluation for subsequent management and family counseling.

Published

2024

11. Variants in PTEN Are Associated With a Diverse Spectrum of Cortical Dysplasia.

Author

Shelkowitz, Emily, Stence, Nicholas V., Neuberger, Ilana, Park, Kristen L., Saenz, Margarita S., Pao, Emily, Oyama, Nora, Friedman, Seth D., Shaw, Dennis W.W., and Mirzaa, Ghayda M.

Subjects

*FOCAL cortical dysplasia, *HAMARTOMA, *DYSPLASIA, *MAGNETIC resonance imaging, *AUTISM spectrum disorders

Abstract

Inactivating mutations in PTEN are among the most common causes of megalencephaly. Activating mutations in other nodes of the PI3K/AKT/MTOR signaling pathway are recognized as a frequent cause of cortical brain malformations. Only recently has PTEN been associated with cortical malformations, and analyses of their prognostic significance have been limited. Retrospective neuroimaging analysis and detailed chart review were conducted on 20 participants identified with pathogenic or likely pathogenic mutations in PTEN and a cortical brain malformation present on brain magnetic resonance imaging. Neuroimaging analysis revealed four main cerebral phenotypes—hemimegalencephaly, focal cortical dysplasia, polymicrogyria (PMG), and a less severe category, termed "macrocephaly with complicated gyral pattern" (MCG). Although a high proportion of participants (90%) had neurodevelopmental findings on presentation, outcomes varied and were favorable in over half of participants. Consistent with prior work, 39% of participants had autism spectrum disorder and 19% of participants with either pure-PMG or pure-MCG phenotypes had epilepsy. Megalencephaly and systemic overgrowth were common, but other systemic features of PTEN-hamartoma tumor syndrome were absent in over one-third of participants. A spectrum of cortical dysplasias is present in individuals with inactivating mutations in PTEN. Future studies are needed to clarify the prognostic significance of each cerebral phenotype, but overall, we conclude that despite a high burden of neurodevelopmental disease, long-term outcomes may be favorable. Germline testing for PTEN mutations should be considered in cases of megalencephaly and cortical brain malformations even in the absence of other findings, including cognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2023

12. Bilateral miosis and third eyelid protrusion in a Golden Retriever with lateralizing forebrain signs.

Author

Jiménez González, Rubén and Posporis, Christoforos

Subjects

*GOLDEN retriever, *PROSENCEPHALON, *EYELIDS, *RETICULAR formation, *HYPOTHALAMUS, *NEUROLOGIC examination, *HORNER syndrome

Abstract

The article presents a case study of a 6-year-old intact male Golden Retriever exhibiting bilateral miosis, third eyelid protrusion, and lateralizing forebrain signs, emphasizing the diagnostic process involving neurological examination, anatomic and etiologic diagnoses, and MRI findings revealing a smaller right prosencephalon with irregular gyri and ventricular enlargement.

Published

2023

13. A Deletion in GDF7 is Associated with a Heritable Forebrain Commissural Malformation Concurrent with Ventriculomegaly and Interhemispheric Cysts in Cats.

Author

Yu, Yoshihiko, Creighton, Erica K, Buckley, Reuben M, Lyons, Leslie A, and 99 Lives Consortium

Subjects

Lives Consortium, Animals, Cats, Mice, Hydrocephalus, Nervous System Malformations, Bone Morphogenetic Proteins, Pedigree, Genotype, Homozygote, Phenotype, Genome-Wide Association Study, Telencephalic Commissures, Whole Genome Sequencing, BMP12, Felis catus, brain malformation, feline, genetics, genome-wide association study, genomics, mendelian traits, neurodevelopment, whole genome sequencing, Genetics

Abstract

An inherited neurologic syndrome in a family of mixed-breed Oriental cats has been characterized as forebrain commissural malformation, concurrent with ventriculomegaly and interhemispheric cysts. However, the genetic basis for this autosomal recessive syndrome in cats is unknown. Forty-three cats were genotyped on the Illumina Infinium Feline 63K iSelect DNA Array and used for analyses. Genome-wide association studies, including a sib-transmission disequilibrium test and a case-control association analysis, and homozygosity mapping, identified a critical region on cat chromosome A3. Short-read whole genome sequencing was completed for a cat trio segregating with the syndrome. A homozygous 7 bp deletion in growth differentiation factor 7 (GDF7) (c.221_227delGCCGCGC [p.Arg74Profs]) was identified in affected cats, by comparison to the 99 Lives Cat variant dataset, validated using Sanger sequencing and genotyped by fragment analyses. This variant was not identified in 192 unaffected cats in the 99 Lives dataset. The variant segregated concordantly in an extended pedigree. In mice, GDF7 mRNA is expressed within the roof plate when commissural axons initiate ventrally-directed growth. This finding emphasized the importance of GDF7 in the neurodevelopmental process in the mammalian brain. A genetic test can be developed for use by cat breeders to eradicate this variant.

Published

2020

14. Basal ganglia dysplasia and mTORopathy: A potential cause of postoperative seizures in focal cortical dysplasia

Author

Wei Shern Lee, Emma Macdonald‐Laurs, Sarah E M Stephenson, Colleen D'Arcy, Duncan MacGregor, Richard J Leventer, Wirginia Maixner, A Simon Harvey, and Paul J Lockhart

Subjects

brain malformation, dysmorphic neuron, epilepsy, genetics, somatic mosaicism, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Pathogenic somatic MTOR variants in the cerebral cortex are a frequent cause of focal cortical dysplasia (FCD). We describe a child with drug and surgery‐resistant focal epilepsy due to FCD type II who developed progressive enlargement and T2 signal hyperintensity in the ipsilateral caudate and lentiform nuclei. Histopathology of caudate nucleus biopsies showed dysmorphic neurons, similar to those in resected cortex. Genetic analysis of frontal and temporal cortex and caudate nucleus identified a pathogenic somatic MTOR variant [NM_004958.4:c.4375G > C (p.Ala1459Pro)] that was not present in blood‐derived gDNA. The mean variant allele frequency ranged from 0.4% to 3.2% in cerebral cortex and up to 5.4% in the caudate nucleus. The basal ganglia abnormalities suggest more widespread, potentially hemispheric dysplasia in this patient, consistent with the pathogenic variant occurring in early cerebral development. This finding provides a potential explanation for persistent seizures in some patients with seemingly complete resection of FCD or disconnection of a dysplastic hemisphere.

Published

2023

15. Diencephalic-Mesencephalic Junction Dysplasia: A Case Report and Overview of What is Known so far.

Author

Rafful, Patricia Piazza and Kraus, Mareen Sarah

Subjects

DYSPLASIA, BRAIN stem, MESENCEPHALON, PATHOLOGICAL physiology

Abstract

Background: Diencephalic-Mesencephalic Junction Dysplasia (DMJD) is a rare and recently newly described forebrain-midbrain malformation involving the upper aspect of the brainstem and resulting in an abnormal regionalization of the diencephalon and mesencephalon level. The fingerprint of DMJD is the pathognomonic butterfly-like appearance of the midbrain seen on the axial plane of brain magnetic resonance imaging (MRI). Initially, only two types of diencephalon-mesencephalon continuity were defined: type A describes the continuity of the hypothalamus with the mesencephalon, and type B a parenchymal band between the thalamus and the superior surface of the midbrain. However, DMJD classification continues to expand, and recently, type C was described as showing a complete continuity of the thalamus and midbrain. In this paper, we refer to mesencephalon and midbrain as the anatomical marker of the topmost part of the brainstem, and those terms are used interchangeably in the text. Methodology: PubMed database search for the exact words "diencephalic-mesencephalic junction dysplasia" and "DMJD" yielded 12 relevant publications. A showcase of an original rare type C DMJD was performed. Objective: The purpose of this article is to present a brief comprehensive illustration/ elucidation of the physiopathology of neural tube regionalization to facilitate the understanding of DMJD malformation; to present an updated overview of recent publications involving imaging findings, genetics, and clinical concerns; and to show an original fetal case of type C DJMD. The aim is to increase awareness of DMJD and strengthen clinical suspicion, especially since early diagnosis is primarily based on imaging. [ABSTRACT FROM AUTHOR]

Published

2023

16. Partial Loss of USP9X Function Leads to a Male Neurodevelopmental and Behavioral Disorder Converging on Transforming Growth Factor β Signaling.

Author

Johnson, Brett V, Kumar, Raman, Oishi, Sabrina, Alexander, Suzy, Kasherman, Maria, Vega, Michelle Sanchez, Ivancevic, Atma, Gardner, Alison, Domingo, Deepti, Corbett, Mark, Parnell, Euan, Yoon, Sehyoun, Oh, Tracey, Lines, Matthew, Lefroy, Henrietta, Kini, Usha, Van Allen, Margot, Grønborg, Sabine, Mercier, Sandra, Küry, Sébastien, Bézieau, Stéphane, Pasquier, Laurent, Raynaud, Martine, Afenjar, Alexandra, Billette de Villemeur, Thierry, Keren, Boris, Désir, Julie, Van Maldergem, Lionel, Marangoni, Martina, Dikow, Nicola, Koolen, David A, VanHasselt, Peter M, Weiss, Marjan, Zwijnenburg, Petra, Sa, Joaquim, Reis, Claudia Falcao, López-Otín, Carlos, Santiago-Fernández, Olaya, Fernández-Jaén, Alberto, Rauch, Anita, Steindl, Katharina, Joset, Pascal, Goldstein, Amy, Madan-Khetarpal, Suneeta, Infante, Elena, Zackai, Elaine, Mcdougall, Carey, Narayanan, Vinodh, Ramsey, Keri, Mercimek-Andrews, Saadet, Pena, Loren, Shashi, Vandana, Undiagnosed Diseases Network, Schoch, Kelly, Sullivan, Jennifer A, Pinto E Vairo, Filippo, Pichurin, Pavel N, Ewing, Sarah A, Barnett, Sarah S, Klee, Eric W, Perry, M Scott, Koenig, Mary Kay, Keegan, Catherine E, Schuette, Jane L, Asher, Stephanie, Perilla-Young, Yezmin, Smith, Laurie D, Rosenfeld, Jill A, Bhoj, Elizabeth, Kaplan, Paige, Li, Dong, Oegema, Renske, van Binsbergen, Ellen, van der Zwaag, Bert, Smeland, Marie Falkenberg, Cutcutache, Ioana, Page, Matthew, Armstrong, Martin, Lin, Angela E, Steeves, Marcie A, Hollander, Nicolette den, Hoffer, Mariëtte JV, Reijnders, Margot RF, Demirdas, Serwet, Koboldt, Daniel C, Bartholomew, Dennis, Mosher, Theresa Mihalic, Hickey, Scott E, Shieh, Christine, Sanchez-Lara, Pedro A, Graham, John M, Tezcan, Kamer, Schaefer, GB, Danylchuk, Noelle R, Asamoah, Alexander, Jackson, Kelly E, Yachelevich, Naomi, Au, Margaret, Pérez-Jurado, Luis A, and Kleefstra, Tjitske

Subjects

Undiagnosed Diseases Network, Animals, Humans, Mice, Ubiquitin Thiolesterase, Transforming Growth Factor beta, Developmental Disabilities, Signal Transduction, Phenotype, Female, Male, Haploinsufficiency, Intellectual Disability, Brain malformation, Deubiquitylating enzyme, Hippocampus, Neurodevelopmental disorder, TGFβ, USP9X, Congenital Structural Anomalies, Genetics, Neurosciences, Pediatric, Mental Health, Behavioral and Social Science, Brain Disorders, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Neurological, TGF beta, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

BackgroundThe X-chromosome gene USP9X encodes a deubiquitylating enzyme that has been associated with neurodevelopmental disorders primarily in female subjects. USP9X escapes X inactivation, and in female subjects de novo heterozygous copy number loss or truncating mutations cause haploinsufficiency culminating in a recognizable syndrome with intellectual disability and signature brain and congenital abnormalities. In contrast, the involvement of USP9X in male neurodevelopmental disorders remains tentative.MethodsWe used clinically recommended guidelines to collect and interrogate the pathogenicity of 44 USP9X variants associated with neurodevelopmental disorders in males. Functional studies in patient-derived cell lines and mice were used to determine mechanisms of pathology.ResultsTwelve missense variants showed strong evidence of pathogenicity. We define a characteristic phenotype of the central nervous system (white matter disturbances, thin corpus callosum, and widened ventricles); global delay with significant alteration of speech, language, and behavior; hypotonia; joint hypermobility; visual system defects; and other common congenital and dysmorphic features. Comparison of in silico and phenotypical features align additional variants of unknown significance with likely pathogenicity. In support of partial loss-of-function mechanisms, using patient-derived cell lines, we show loss of only specific USP9X substrates that regulate neurodevelopmental signaling pathways and a united defect in transforming growth factor β signaling. In addition, we find correlates of the male phenotype in Usp9x brain-specific knockout mice, and further resolve loss of hippocampal-dependent learning and memory.ConclusionsOur data demonstrate the involvement of USP9X variants in a distinctive neurodevelopmental and behavioral syndrome in male subjects and identify plausible mechanisms of pathogenesis centered on disrupted transforming growth factor β signaling and hippocampal function.

Published

2020

17. Endoscopic ultrasonic aspiration of posterior fossa abscess in Dandy-Walker malformation: case report.

Author

Spennato, Pietro, Scala, Maria Rosaria, Vitulli, Francesca, Parlato, Raffaele Stefano, Russo, Carmela, and Cinalli, Giuseppe

Subjects

*CEREBROSPINAL fluid shunts, *HUMAN abnormalities, *ABSCESSES, *ULTRASONICS, *BRAIN abscess, *INFRATENTORIAL brain tumors

Abstract

Background: Dandy-Walker malformation (DWM) is a posterior fossa malformation characterized by a huge posterior fossa cyst in communication with the fourth ventricle. Hydrocephalus is associated with more than 80% of cases and is usually treated by shunting. Despite infection being a common complication of the shunt, abscess formation within the cyst was reported only once. Case report: A neonate affected by DWM developed a posterior fossa abscess following a shunt infection. The purulent collection was refractory to standard treatment (antibiotics and burr hole drainage); therefore, an endoscopic approach was performed in order to remove the purulent collection under direct vision. This material was aspirated with the help of an endoscopic ultrasonic aspirator. The outcome was favorable, with a resolution of infection and re-implantation of the ventriculo-peritoneal shunt. Surprisingly, post-operative radiological examination showed substantial modification of the anatomy of the posterior fossa with disappearing of the Dandy-Walker cyst. To the best of our knowledge, this is the first documented report of a true Dandy-Walker malformation that modified its anatomical appearance over time. Discussion and conclusion: Endoscopic aspiration of intracranial purulent collection should be considered a valid option to manage complicated cases. An endoscopic ultrasonic aspirator may make the procedure more effective and faster. [ABSTRACT FROM AUTHOR]

Published

2023

18. Children with corpus callosum anomalies: clinical characteristics and developmental outcomes.

Author

Jańczewska, Iwona, Preis-Orlikowska, Joanna, Domżalska-Popadiuk, Iwona, Preis, Krzysztof, and Jańczewska, Alicja

Subjects

AGENESIS of corpus callosum, CORPUS callosum, BRAIN abnormalities, MAGNETIC resonance imaging, DEVELOPMENTAL delay, GENETIC disorders

Abstract

Introduction. Corpus callosum abnormalities are complex, aetiologically diverse, and clinically heterogeneous conditions. Counselling parents regarding their causes and associated syndromes, and predicting the neurodevelopmental and seizure risk prognosis, is challenging. Material and methods. We describe the clinical characteristics, associated anomalies, and neurodevelopmental outcomes of children with agenesis of corpus callosum (ACC). Fifty-one neonates with ACC/hypoplasia of the corpus callosum were identified over a 17-year period, and their medical records were retrospectively reviewed. Results. Patients were classified into two groups depending on the presence or absence of associated abnormalities. The first group (17 patients, 33.4%) presented with isolated callosal anomalies. The second group included 34 patients (66.6%) with associated cerebral and extracerebral anomalies. We achieved an identifiable genetic aetiology in 23.5% of our cohort. Magnetic resonance imaging was performed in 28 patients (55%), and of these 39.3% had additional brain anomalies. During the study period, five patients died early in the neonatal period and four were lost to follow up. Of the 42 followed patients, 13 (31%) showed normal neurodevelopment, 13 (31%) showed mild delay, and 16 (38%) had a severe delay. Fifteen (35.7%) had epilepsy. Conclusions and clinical implications. We have confirmed that callosal defects are frequently accompanied by brain and somatic anomalies. Additional abnormalities were shown to be significantly associated with developmental delay and increased risk of epilepsy. We have highlighted essential clinical features that may provide diagnostic clues to physicians and we have given examples of underlying genetic disorders. We have provided recommendations about extended neuroimaging diagnostics and widespread genetic testing that may impact upon daily clinical practice. Paediatric neurologists may therefore use our findings to help base their decisions regarding this matter. [ABSTRACT FROM AUTHOR]

Published

2023

19. Basal ganglia dysplasia and mTORopathy: A potential cause of postoperative seizures in focal cortical dysplasia.

Author

Lee, Wei Shern, Macdonald‐Laurs, Emma, Stephenson, Sarah E M, D'Arcy, Colleen, MacGregor, Duncan, Leventer, Richard J, Maixner, Wirginia, Harvey, A Simon, and Lockhart, Paul J

Subjects

FOCAL cortical dysplasia, DYSPLASIA, BASAL ganglia, CORPUS striatum, SEIZURES (Medicine), CAUDATE nucleus

Abstract

Pathogenic somatic MTOR variants in the cerebral cortex are a frequent cause of focal cortical dysplasia (FCD). We describe a child with drug and surgery‐resistant focal epilepsy due to FCD type II who developed progressive enlargement and T2 signal hyperintensity in the ipsilateral caudate and lentiform nuclei. Histopathology of caudate nucleus biopsies showed dysmorphic neurons, similar to those in resected cortex. Genetic analysis of frontal and temporal cortex and caudate nucleus identified a pathogenic somatic MTOR variant [NM_004958.4:c.4375G > C (p.Ala1459Pro)] that was not present in blood‐derived gDNA. The mean variant allele frequency ranged from 0.4% to 3.2% in cerebral cortex and up to 5.4% in the caudate nucleus. The basal ganglia abnormalities suggest more widespread, potentially hemispheric dysplasia in this patient, consistent with the pathogenic variant occurring in early cerebral development. This finding provides a potential explanation for persistent seizures in some patients with seemingly complete resection of FCD or disconnection of a dysplastic hemisphere. [ABSTRACT FROM AUTHOR]

Published

2023

20. The clinical and imaging features of FLNA positive and negative periventricular nodular heterotopiaAt a glance commentary

Author

Yan-Ting Lu, Chung-Yao Hsu, Yo-Tsen Liu, Chung-Kin Chan, Yao-Chung Chuang, Chih-Hsiang Lin, Kai-Ping Chang, Chen-Jui Ho, Ching-Ching Ng, Kheng-Seang Lim, and Meng-Han Tsai

Subjects

Periventricular heterotopia, MRI, Epilepsy, Brain malformation, FLNA, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Background: Periventricular nodular heterotopia (PVNH) is caused by abnormal neuronal migration, resulting in the neurons accumulate as nodules along the surface of the lateral ventricles. PVNH often cause epilepsy, psychomotor development or cognition problem. Mutations in FLNA (Filamin A) is the most common underlying genetic etiology. Our purpose is to delineate the clinical and imaging spectrum that differentiates FLNA-positive and FLNA-negative PVNH patients. Methods: We included 21 patients with confirmed PVNH. The detailed clinical information, electroencephalography, and other clinical findings were recorded. Detailed brain MR imaging was assessed. Mutation analysis of the FLNA gene was used Sanger sequencing or a next generation sequencing based assay. Results: FLNA mutations were identified in 9 patients (7 females and 2 males), including two nonsense, two splice site, three frameshift, and two missense mutations. In FLNA-positive group, 8 patients had anterior predominant bilateral symmetric presentation and only one had asymmetrical distribution and dilated ventricles. Extra-cerebral features were more often observed in FLNA-positive group than FLNA-negative group. Conclusion: Genetics of PVNH is heterogenous, and mutations in FLNA gene account for less than half of the patients in our cohort. Our finding between FLNA-positive and FLNA-negative patients could guide the clinicians to select relevant genetic testing.

Published

2022

21. Brain pathology of lissencephaly type 2 with an ISPD pathogenic variant.

Author

Keith, Julia and Shannon, Patrick

Subjects

*BRAIN diseases, *ORGANS (Anatomy), *CORPUS callosum, *LIMB-girdle muscular dystrophy, *GRANULE cells, *CEREBELLAR cortex, *DYSPLASIA

Abstract

Keywords: brain malformation; CRPPA; ISPD; Lissencephaly type 2 EN brain malformation CRPPA ISPD Lissencephaly type 2 1 3 3 10/31/23 20231001 NES 231001 Key Points Pathogenic variants in I ISPD i can cause lissencephaly type 2. The fixed brain and spinal cord were received for examination, and the fresh brain weight was documented as 53.06 g (expected brain weight at 21-22 weeks' gestation is 69.90 g with a standard deviation of 13.35 g [[7]]). Pathogenic variants in isoprenoid synthase domain-containing protein ( I ISPD i ) are a known, rare genetic cause of lissencephaly type 2, but a detailed neuropathologic description of the associated brain pathology is lacking in the literature. [Extracted from the article]

Published

2023

22. CNS Malformations in the Newborn

Author

Kristin Barañano and Irina Burd

Subjects

Brain malformation, Agenesis corpus callosum, Ventriculomegaly, Dandy Walker malformation, Medicine

Abstract

Abstract Structural brain anomalies are relatively common and may be detected either prenatally or postnatally. Brain malformations can be characterized based on the developmental processes that have been perturbed, either by environmental, infectious, disruptive or genetic causes. Fetuses and neonates with brain malformations should be thoroughly surveilled for potential other anomalies, and depending on the nature of the brain malformation, may require additional investigations such as genetic testing, ophthalmological examinations, cardiorespiratory monitoring, and screening laboratory studies.

Published

2022

23. CEREBRAL POPCORN - A RARE ETIOLOGY OF SEIZURES.

Author

Claro, Ana Raquel, Mota, Marina, Soares, Ines, Wilcke, Thomas, and Ramos, Daniela

Subjects

*PEDIATRIC neurology, *MAGNETIC resonance imaging, *TREATMENT effectiveness, *HAMARTOMA, *CENTRAL nervous system, *COMPUTED tomography

Abstract

The article discusses a case of an eleven-year-old girl presenting with seizures due to a cavernoma, a rare vascular brain malformation. The girl underwent surgery to remove the cavernoma, resulting in the cessation of seizures. Cavernomas are benign vascular hamartomas that can lead to neurological symptoms like seizures or hemorrhages, and early recognition and treatment are crucial for a good clinical outcome. The article emphasizes the importance of using MRI for diagnosis and surgical resection for controlling seizures effectively. [Extracted from the article]

Published

2024

24. DBB - A Distorted Brain Benchmark for Automatic Tissue Segmentation in Paediatric Patients

Author

Gabriele Amorosino, Denis Peruzzo, Daniela Redaelli, Emanuele Olivetti, Filippo Arrigoni, and Paolo Avesani

Subjects

Brain tissue segmentation, Brain malformation, Machine learning, Supervised learning, Benchmark, Magnetic resonance imaging (MRI), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

T1-weighted magnetic resonance images provide a comprehensive view of the morphology of the human brain at the macro scale. These images are usually the input of a segmentation process that aims detecting the anatomical structures labeling them according to a predefined set of target tissues. Automated methods for brain tissue segmentation rely on anatomical priors of the human brain structures. This is the reason why their performance is quite accurate on healthy individuals. Nevertheless model-based tools become less accurate in clinical practice, specifically in the cases of severe lesions or highly distorted cerebral anatomy. More recently there are empirical evidences that a data-driven approach can be more robust in presence of alterations of brain structures, even though the learning model is trained on healthy brains. Our contribution is a benchmark to support an open investigation on how the tissue segmentation of distorted brains can be improved by adopting a supervised learning approach. We formulate a precise definition of the task and propose an evaluation metric for a fair and quantitative comparison. The training sample is composed of almost one thousand healthy individuals. Data include both T1-weighted MR images and their labeling of brain tissues. The test sample is a collection of several tens of individuals with severe brain distortions. Data and code are openly published on BrainLife, an open science platform for reproducible neuroscience data analysis.

Published

2022

25. Broadening the phenotypic spectrum of TUBA1A tubulinopathy to syndromic arthrogryposis multiplex congenita.

Author

Weber, Mathilde, Jaber, Dana, Encha‐Razavi, Ferechte, Julien, Emmanuel, Grevoul‐Fesquet, Julie, Steffann, Julie, Melki, Judith, and Martinovic, Jelena

Abstract

The recent finding that some patients with fetal akinesia deformation sequence (FADS) carry variants in the TUBB2B gene has prompted us to add to the existing literature a first description of two fetal FADS cases carrying TUBA1A variants. Hitherto, only isolated cortical malformations have been described with TUBA1A mutation, including microlissencephaly, lissencephaly, central pachygyria and polymicrogyria‐like cortical dysplasia, generalized polymicrogyria cortical dysplasia, and/or the "simplified" gyral pattern. The neuropathology of our fetal cases shows several common features of tubulinopathies, in particular, the dysmorphism of the basal ganglia, as the most pathognomonic sign. The cortical ribbon anomalies were extremely severe and concordant with the complex cortical malformation. In conclusion, we broaden the phenotypic spectrum of TUBA1A variants, to include FADS. [ABSTRACT FROM AUTHOR]

Published

2022

26. Clinical and genetic characteristics of type 3 lissencephaly caused by a mutation in the TUBA1A gene (OMIM: 611603)

Author

D. M. Guseva, T. V. Markova, L. A. Bessonova, S. S. Nikitin, E. L. Dadali, and O. A. Shchagina

Subjects

brain malformation, lissencephaly, microcephaly, tubulin, tuba1a, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background. Lissencephaly (LIS) is a spectrum of malformations of the cerebral cortex that occur as a result of impaired migration of neuronal precursors to the cortical plate and the formation of furrows and convolutions in the post‑migration period of embryonic development. In recent years, a significant role of hereditary factors in the occurrence of LIS has been shown due to the improvement of methods of molecular genetic diagnostics. Today, 13 genetic variants have been identified in the LIS group, six of which are inherited autosomal recessively, five are autosomal dominant, and two are linked to the X chromosome. It is shown that 80 % of cases of hereditary LIS is caused by mutations in two genes: PAFAH1B1, which is responsible for the occurrence of the LIS 1 type with an au‑ tosomal dominant type of inheritance, and in the DCX gene, localized on the X chromosome. The rest of the genetic variants account for from 1 % to 5 % of cases of defects accompanied by dysgenesis of the cerebral cortex. In recent years, the number of works devoted to the analysis of clinical and genetic characteristics of monogenic variants of LIS has increased. The results of such studies will allow us to improve our understanding not only of the pathogenetic mechanisms of this group of diseases, but also of the molecular basis for the formation of brain structures in the normal embryonic period.Objective: to describe the clinical and genetic characteristics of three Russian patients with autosomal dominant LIS type 3 (OMIM: 611603) caused by mutations in the TUBA1A gene.Materials and methods. All patients were under observation in the consultative and diagnostic department of Research Centre for Medical Genetics. The diagnosis was established on the basis of clinical data, genealogical anamnesis, results of brain MRI, EEG night video monitoring and exome sequencing by NGS. The validation of the identified nucleotide substitutions and analysis of the disease segregation were performed using the Sanger direct automatic sequencing method.Results. The clinical and genetic characteristics of three patients with newly identified and previously described mutation in the TUBA1A gene were analyzed. Possible effects of new missense mutations in the gene on the function of the protein product of the gene are discussed.Conclusions. The results of the analysis of the clinical and genetic characteristics of the patients we observed contribute to the study of the polymorphism of clinical manifestations resulting from mutations in the TUBA1A gene. The previously stated assumption about a wide range of malformations of the brain in patients with mutations in this gene was confirmed, which should be taken into account when making a diagnosis.

Published

2021

27. Germline variants in tumor suppressor FBXW7 lead to impaired ubiquitination and a neurodevelopmental syndrome.

Author

Stephenson, Sarah E.M., Costain, Gregory, Blok, Laura E.R., Silk, Michael A., Nguyen, Thanh Binh, Dong, Xiaomin, Alhuzaimi, Dana E., Dowling, James J., Walker, Susan, Amburgey, Kimberly, Hayeems, Robin Z., Rodan, Lance H., Schwartz, Marc A., Picker, Jonathan, Lynch, Sally A., Gupta, Aditi, Rasmussen, Kristen J., Schimmenti, Lisa A., Klee, Eric W., and Niu, Zhiyv

Subjects

*NEURAL development, *UBIQUITINATION, *MISSENSE mutation, *GERM cells, *DEVELOPMENTAL delay, *NOTCH genes

Abstract

Neurodevelopmental disorders are highly heterogenous conditions resulting from abnormalities of brain architecture and/or function. FBXW7 (F-box and WD-repeat-domain-containing 7), a recognized developmental regulator and tumor suppressor, has been shown to regulate cell-cycle progression and cell growth and survival by targeting substrates including CYCLIN E1/2 and NOTCH for degradation via the ubiquitin proteasome system. We used a genotype-first approach and global data-sharing platforms to identify 35 individuals harboring de novo and inherited FBXW7 germline monoallelic chromosomal deletions and nonsense, frameshift, splice-site, and missense variants associated with a neurodevelopmental syndrome. The FBXW7 neurodevelopmental syndrome is distinguished by global developmental delay, borderline to severe intellectual disability, hypotonia, and gastrointestinal issues. Brain imaging detailed variable underlying structural abnormalities affecting the cerebellum, corpus collosum, and white matter. A crystal-structure model of FBXW7 predicted that missense variants were clustered at the substrate-binding surface of the WD40 domain and that these might reduce FBXW7 substrate binding affinity. Expression of recombinant FBXW7 missense variants in cultured cells demonstrated impaired CYCLIN E1 and CYCLIN E2 turnover. Pan-neuronal knockdown of the Drosophila ortholog, archipelago , impaired learning and neuronal function. Collectively, the data presented herein provide compelling evidence of an F-Box protein-related, phenotypically variable neurodevelopmental disorder associated with monoallelic variants in FBXW7. [ABSTRACT FROM AUTHOR]

Published

2022

28. A Rare Case of an Infant with Left Hemiparesis: A Case Report of Bilateral Open-lip Schizencephaly

Author

Maryam Mohd Zulkifli, Siti Balqis Channmekun, Siti Suhaila Mohd Yusoff, Rosediani Muhamad, and Ahmad Tarmizi Musa

Subjects

brain malformation, development delay, hemiparesis, schizencephaly, Medicine

Abstract

Schizencephaly is a very rare congenital birth defect. It is characterized by a cortical brain malformation that manifests as a grey-matter-lined cleft extending from the ependyma to the piamater. It is a rare condition, and few cases have been reported in the literature. The exact cause is unknown. Herein, we report a case of an infant presenting with left side hemiparesis. The CT scan of her brain revealed right fronto-temporal and left parieto-temporal open-lip schizencephaly; thus, urgent referral to a pediatric neurologist was made for early intervention.

Published

2020

29. Knockdown of Son, a mouse homologue of the ZTTK syndrome gene, causes neuronal migration defects and dendritic spine abnormalities

Author

Masashi Ueda, Tohru Matsuki, Masahide Fukada, Shima Eda, Akie Toya, Akio Iio, Hidenori Tabata, and Atsuo Nakayama

Subjects

SON, Zhu-Tokita-Takenouchi-Kim syndrome, Brain malformation, Intellectual disability, Neuronal migration, Spinogenesis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Zhu-Tokita-Takenouchi-Kim (ZTTK) syndrome, a rare congenital anomaly syndrome characterized by intellectual disability, brain malformation, facial dysmorphism, musculoskeletal abnormalities, and some visceral malformations is caused by de novo heterozygous mutations of the SON gene. The nuclear protein SON is involved in gene transcription and RNA splicing; however, the roles of SON in neural development remain undetermined. We investigated the effects of Son knockdown on neural development in mice and found that Son knockdown in neural progenitors resulted in defective migration during corticogenesis and reduced spine density on mature cortical neurons. The induction of human wild-type SON expression rescued these neural abnormalities, confirming that the abnormalities were caused by SON insufficiency. We also applied truncated SON proteins encoded by disease-associated mutant SON genes for rescue experiments and found that a truncated SON protein encoded by the most prevalent SON mutant found in ZTTK syndrome rescued the neural abnormalities while another much shorter mutant SON protein did not. These data indicate that SON insufficiency causes neuronal migration defects and dendritic spine abnormalities, which seem neuropathological bases of the neural symptoms of ZTTK syndrome. In addition, the results support that the neural abnormalities in ZTTK syndrome are caused by SON haploinsufficiency independent of the types of mutation that results in functional or dysfunctional proteins.

Published

2020

30. A de novo Non-sense Nuclear Factor I B Mutation (p.Tyr290*) Is Responsible for Brain Malformation and Lung Lobulation Defects

Author

Hao Huang, Jieyuan Jin, Liping Wu, Huifen Wu, Huichun Pi, Yi Dong, and Rong Xiang

Subjects

brain malformation, non-sense, mutation, NFIB, lung lobulation defects, lissencephaly, Pediatrics, RJ1-570

Abstract

BackgroundNuclear factor I B (NFIB) plays an important role in regulating the transcription of multiple biological processes. Mutations in NFIB cause intellectual disability and macrocephaly. However, studies on abnormal brain and lung development caused by NFIB mutations are lacking.MethodsIn the present study, we enrolled a fetus with brain malformation and lung lobulation defects from China. Whole-exome sequencing (WES) was performed to detect the candidate genes and Sanger sequencing was performed for mutational analysis.ResultsAfter data filtering and bioinformatics prediction, a novel non-sense mutation of NFIB (NM_001190737:c.870C > A;p.Tyr290*) was identified in the fetus. This variant was predicted to produce a truncated NFIB protein because of a premature stop codon and was absent in 200 healthy controls.ConclusionTo the best of our knowledge, this is the first case of brain malformation and lung lobulation defects caused by a NFIB variant in Asia. These findings contribute to genetic diagnosis and family counseling and expand our understanding of NFIB mutations as well as brain and lung maturation.

Published

2022

31. Dual white matter pathology in fetal holoprosencephaly featuring concurrent malformative and destructive features: A case series.

Author

Das S, Brown L, Nikkel SM, Saunders J, and Dunham C

Subjects

Female, Humans, Pregnancy, Brain pathology, Brain diagnostic imaging, Fetus pathology, Leukomalacia, Periventricular pathology, Leukomalacia, Periventricular complications, Leukomalacia, Periventricular diagnostic imaging, Holoprosencephaly pathology, Holoprosencephaly complications, White Matter pathology, White Matter diagnostic imaging

Abstract

Holoprosencephaly (HPE) is a classic brain malformation involving defective forebrain induction and patterning. Cases of HPE bearing white matter abnormalities have not been well documented, with only rare cases exhibiting hypoxic-ischemic damage. However, neuroradiologic studies of HPE using diffusion tensor imaging have suggested the presence of white matter architectural disarray. Described in this case series are the clinicopathologic features of 8 fetuses with HPE who underwent autopsy at BC Children's Hospital. All 8 cases exhibited subacute to chronic, periventricular leukomalacia (PVL)-like white matter pathology, with 7 of 8 cases also demonstrating aberrant white matter tracts, one of which manifested as a discreet bundle crossing the midline within the ventral aspects of the fused deep gray nuclei. In 6 of these 7 cases, the PVL-like pathology resided within this aberrant white matter tract. Original workup, alongside an additional HPE-focused next-generation sequencing panel identified a likely etiologic cause for the HPE in 4 cases, with an additional 2 cases exhibiting a variant of unknown significance in genes previously suggested to be involved in HPE. Despite our in-depth clinicopathologic and molecular review, no unifying etiology was definitively identified among our series of fetal HPE bearing this unusual pattern of white matter pathology., (© The Author(s) 2024. Published by Oxford University Press on behalf of American Association of Neuropathologists, Inc. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2024

32. Missense-depleted regions in population exomes implicate ras superfamily nucleotide-binding protein alteration in patients with brain malformation.

Author

Ge, Xiaoyan, Gong, Henry, Dumas, Kevin, Litwin, Jessica, Phillips, Joanna J, Waisfisz, Quinten, Weiss, Marjan M, Hendriks, Yvonne, Stuurman, Kyra E, Nelson, Stanley F, Grody, Wayne W, Lee, Hane, Kwok, Pui-Yan, and Shieh, Joseph Tc

Subjects

ARF1, Exome sequencing, GDP/GTP, MDR, RAS superfamily, brain malformation, missense-depletion, nucleotide-binding, variant prioritization

Abstract

Genomic sequence interpretation can miss clinically relevant missense variants for several reasons. Rare missense variants are numerous in the exome and difficult to prioritise. Affected genes may also not have existing disease association. To improve variant prioritisation, we leverage population exome data to identify intragenic missense-depleted regions (MDRs) genome-wide that may be important in disease. We then use missense depletion analyses to help prioritise undiagnosed disease exome variants. We demonstrate application of this strategy to identify a novel gene association for human brain malformation. We identified de novo missense variants that affect the GDP/GTP-binding site of ARF1 in three unrelated patients. Corresponding functional analysis suggests ARF1 GDP/GTP-activation is affected by the specific missense mutations associated with heterotopia. These findings expand the genetic pathway underpinning neurologic disease that classically includes FLNA. ARF1 along with ARFGEF2 add further evidence implicating ARF/GEFs in the brain. Using functional ontology, top MDR-containing genes were highly enriched for nucleotide-binding function, suggesting these may be candidates for human disease. Routine consideration of MDR in the interpretation of exome data for rare diseases may help identify strong genetic factors for many severe conditions, infertility/reduction in reproductive capability, and embryonic conditions contributing to preterm loss.

Published

2016

33. Expanding the phenotypic and allelic spectrum of SMG8: Clinical observations reveal overlap with SMG9‐associated disease trait.

Author

Abdel‐Salam, Ghada M. H., Duan, Ruizhi, Abdel‐Hamid, Mohamed S., Sayed, Inas S. M., Jhangiani, Shalini N., Khan, Ziad, Du, Haowei, Gibbs, Richard A., Posey, Jennifer E., Marafi, Dana, and Lupski, James R.

Abstract

SMG8 (MIM *617315) is a regulatory subunit involved in nonsense‐mediated mRNA decay (NMD), a cellular protective pathway that regulates mRNA transcription, transcript stability, and degrades transcripts containing premature stop codons. SMG8 binds SMG9 and SMG1 to form the SMG1C complex and inhibit the kinase activity of SMG1. Biallelic deleterious variants in SMG9 are known to cause a heart and brain malformation syndrome (HBMS; MIM #616920), whereas biallelic deleterious variants in SMG8 were recently described to cause a novel neurodevelopmental disorder (NDD) with dysmorphic facies and cataracts, now defined as Alzahrani–Kuwahara syndrome (ALKUS: MIM #619268). Only eight subjects from four families with ALKUS have been described to date. Through research reanalysis of a nondiagnostic clinical exome, we identified a subject from a fifth unrelated family with a homozygous deleterious variant in SMG8 and features consistent with ALKUS. Interestingly, the subject also had unilateral microphthalmia, a clinical feature that has been described in SMG9‐related disorder. Our study expands the phenotypic spectrum of SMG8‐related disorder, demonstrates an overlapping phenotype between SMG8‐ and SMG9‐related rare disease traits, provides further evidence for the SMG8 and SMG9 protein interactions, and highlights the importance of revisiting nondiagnostic exome data to identify and affirm emerging novel genes for rare disease traits. [ABSTRACT FROM AUTHOR]

Published

2022

34. CNS Malformations in the Newborn.

Author

Barañano, Kristin and Burd, Irina

Subjects

HUMAN abnormalities, NEWBORN infants, CARDIOPULMONARY system, GENETIC testing, COMMUNICABLE diseases

Abstract

Structural brain anomalies are relatively common and may be detected either prenatally or postnatally. Brain malformations can be characterized based on the developmental processes that have been perturbed, either by environmental, infectious, disruptive or genetic causes. Fetuses and neonates with brain malformations should be thoroughly surveilled for potential other anomalies, and depending on the nature of the brain malformation, may require additional investigations such as genetic testing, ophthalmological examinations, cardiorespiratory monitoring, and screening laboratory studies. [ABSTRACT FROM AUTHOR]

Published

2022

35. The phenotypic spectrum of PCDH12 associated disorders - Five new cases and review of the literature.

Author

Fazeli, Walid, Bamborschke, Daniel, Moawia, Abubakar, Bakhtiari, Somayeh, Tafakhori, Abbas, Giersdorf, Matthias, Hahn, Andreas, Weik, Anja, Kolzter, Kirsten, Shafiee, Sajad, Jin, Sheng Chih, Körber, Friederike, Lee-Kirsch, Min Ae, Darvish, Hossein, Cirak, Sebahattin, Kruer, Michael C., and Koy, Anne

Subjects

EPILEPSY, MEDULLA oblongata, LITERATURE reviews, PHENOTYPES, MOVEMENT disorders, CHILD patients

Abstract

PCDH12 is a member of the non-clustered protocadherin family of calcium-dependent cell adhesion proteins, which are involved in the regulation of brain development and endothelial adhesion. To date, only 15 families have been reported with PCDH12 associated disease. The main features previously associated with PCDH12 deficiency are developmental delay, movement disorder, epilepsy, microcephaly, visual impairment, midbrain malformations, and intracranial calcifications. Here, we report novel clinical features such as onset of epilepsy after infancy, episodes of transient developmental regression, and dysplasia of the medulla oblongata associated with three different novel truncating PCDH12 mutations in five cases (three children, two adults) from three unrelated families. Interestingly, our data suggests a clinical overlap with interferonopathies, and we show an elevated interferon score in two pediatric patients. This case series expands the genetic and phenotypic spectrum of PCDH12 associated diseases and highlights the broad clinical variability. • PCDH12 mutations associated with spectrum of epilepsy-dyskinesia disorders. • Five new cases, three novel PCDH12 mutations and review of the literature. • Novel observation: malformations of medulla oblongata in PCDH12 patients. • Novel observation: clinical overlap with interferonopathies and. • Increased interferon signature as potential hint to underlying disease mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

36. Second trimester fetal MRI features in a fetus with TUBB3 gene mutation

Author

Mounika Guduru, MD, Andria Powers, MD, Terri Love, MD, and Angela Beavers, MD

Subjects

Brain malformation, Brainstem kinking, Cerebellar hypoplasia, Fetal ventriculomegaly, Tubulinopathy, TUBB3 mutation, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Tubulinopathies are a heterogeneous group of complex cortical malformations that are associated with mutations in tubulin genes. TUBB3 gene mutation is associated with a broader spectrum of central nervous system malformations and constitutes about 10% of all tubulinopathies. The diagnosis may not be immediately apparent on imaging, though the differential diagnosis may be narrowed based on imaging findings and allow for more directed genetic testing. We report a 22-year-old gravida-1 nulliparous female whose routine second trimester fetal ultrasound revealed ventriculomegaly and possible agenesis of the corpus callosum. Fetal magnetic resonance imaging showed severe lateral and third ventriculomegaly and a dysplastic, z-shaped brainstem without any evidence of ocular abnormalities. Genetic testing revealed a pathogenic mutation in TUBB3.

Published

2021

37. RGCC balances self‐renewal and neuronal differentiation of neural stem cells in the developing mammalian neocortex.

Author

Guo, Zhenming, Chen, Mengxia, Chao, Yiming, Cai, Chunhai, Liu, Liangjie, Zhao, Li, Li, Linbo, Bai, Qing‐Ran, Xu, Yanxin, Niu, Weibo, Shi, Lei, Bi, Yan, Ren, Decheng, Yuan, Fan, Shi, Shuyue, Zeng, Qian, Han, Ke, Shi, Yi, Bian, Shan, and He, Guang

Abstract

During neocortical development, neural stem cells (NSCs) divide symmetrically to self‐renew at the early stage and then divide asymmetrically to generate post‐mitotic neurons. The molecular mechanisms regulating the balance between NSC self‐renewal and neurogenesis are not fully understood. Using mouse in utero electroporation (IUE) technique and in vitro human NSC differentiation models including cerebral organoids (hCOs), we show here that regulator of cell cycle (RGCC) modulates NSC self‐renewal and neuronal differentiation by affecting cell cycle regulation and spindle orientation. RGCC deficiency hampers normal cell cycle process and dysregulates the mitotic spindle, thus driving more cells to divide asymmetrically. These modulations diminish the NSC population and cause NSC pre‐differentiation that eventually leads to brain developmental malformation in hCOs. We further show that RGCC might regulate NSC spindle orientation by affecting the organization of centrosome and microtubules. Our results demonstrate that RGCC is essential to maintain the NSC pool during cortical development and suggest that RGCC defects could have etiological roles in human brain malformations. Synopsis: The cell cycle regulator RGCC maintains spindle orientation during NSC mitotic divisions. In the presence of RGCC, NSCs divide symmetrically to generate two daughter NSCs for maintaining the NSC pool. Without RGCC, NSCs divide asymmetrically, leading to proneuronal differentiation. RGCC is essential for NSC maintenance and self‐renewal.RGCC distributes around dividing nuclei of NSCs.RGCC‐deficiency impairs centrosome‐spindle organization in NSC. [ABSTRACT FROM AUTHOR]

Published

2021

38. Hypoxia: A teratogen underlying a range of congenital disruptions, dysplasias, and malformations.

Author

Adam, Aaron P., Payton, Kurlen S. E., Sanchez‐Lara, Pedro A., Adam, Margaret P., and Mirzaa, Ghayda M.

Abstract

In this review, we explore evidence that hypoxia in the developing human fetus can lead not only to the more commonly accepted disruptive‐type defects, but also patterns of anomalies that suggest that hypoxia can exert a more classic teratogenic effect, using the brain as one example. We review neuropathology in the context of intrauterine hypoxia, particularly as it relates to carbon monoxide poisoning, in utero strokes, and homozygous alpha‐thalassemia. In general, the associated brain injuries resemble those seen with other causes of hypoxic–ischemic injury. Fetal strokes during development usually lead to loss of brain tissue in areas that do not follow a typical embryologic pattern, and therefore are considered disruptions. However, there is also evidence that fetal brain ischemia can cause more classically recognized patterns of abnormal embryonic neuronal migration and organization such as polymicrogyria, cortical dysplasia, or dysgenesis, including select types of focal cortical dysplasia. This study summarizes available literature and evidence to raise clinicians' awareness regarding the association between hypoxia and congenital anomalies, including brain malformations. [ABSTRACT FROM AUTHOR]

Published

2021

39. Loss-of-Function Plays a Major Role in Early Neurogenesis of Tubulin α-1 A (TUBA1A) Mutation-Related Brain Malformations.

Author

Xie, Liangqun, Huang, Jingrui, Dai, Lei, Luo, Jiefeng, Zhang, Jiejie, Peng, Qiaozhen, Sun, Jingchi, and Zhang, Weishe

Abstract

Tubulin α-1 A (TUBA1A) mutations cause a wide spectrum of brain abnormalities. Although many mutations have been identified and functionally verified, there are clearly many more, and the relationship between TUBA1A mutations and brain malformations remains unclear. The aim of this study was to identify a TUBA1A mutation in a fetus with severe brain abnormalities, verify it functionally, and determine the mechanism of the mutation-related pathogenesis. A de novo missense mutation of the TUBA1A gene, c.167C>G p.T56R/P.THR56Arg, was identified by exon sequencing. Computer simulations showed that the mutation results in a disruption of lateral interactions between the microtubules. Transfection of 293T cells with TUBA1A p.T56R showed that the mutated protein is only partially incorporated into the microtubule network, resulting in a decrease in the rate of microtubule re-integration in comparison with the wild-type protein. The mechanism of pathological changes induced by the mutant gene was determined by knockdown and overexpression. It was found that knockdown of TUBA1A reduced the generation of neural progenitor cells, while overexpression of wild-type or mutant TUBA1A promoted neurogenesis. Our identification and functional verification of the novel TUBA1A mutation extends the TUBA1A gene-phenotype database. Loss-of-function of TUBA1A was shown to play an important role in early neurogenesis of TUBA1A mutation-related brain malformations. [ABSTRACT FROM AUTHOR]

Published

2021

40. Prenatal Imaging of Supratentorial Fetal Brain Malformation.

Author

Hung SC, Dahmoush H, Lee HJ, Chen HC, and Guimaraes CV

Subjects

Humans, Pregnancy, Female, Magnetic Resonance Imaging methods, Prenatal Diagnosis methods, Brain diagnostic imaging, Brain abnormalities, Brain embryology

Abstract

This review article provides a comprehensive overview of fetal MR imaging in supratentorial cerebral malformations. It emphasizes the importance of fetal MR imaging as an adjunct diagnostic tool used alongside ultrasound, improving the detection and characterization of prenatal brain abnormalities. This article reviews a spectrum of cerebral malformations, their MR imaging features, and the clinical implications of these findings. Additionally, it outlines the growing importance of fetal MR imaging in the context of perinatal care., Competing Interests: Disclosure The authors have nothing to disclose., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

41. Many Faces of Diencephalic-Mesencephalic Junction Dysplasia Syndrome with GSX2 and PCDH12 Variants.

Author

Ürel-Demir G, Başer B, Göçmen R, Şimşek-Kiper PÖ, Utine GE, and Haliloğlu G

Abstract

Introduction: Diencephalic-mesencephalic junction dysplasia syndrome is a rare neurogenetic disorder reported to be caused by variants in several genes. Phenotypic presentation is characterized by clinical findings including developmental delay, hypotonia, spasticity, and dyskinetic movements in combination with distinctive imaging features on brain magnetic resonance imaging (MRI)., Methods: Whole exome sequencing was conducted to unveil the molecular etiology of patients presenting with neurological manifestations from two unrelated families., Results: To the best of our knowledge, here we report the third family affected with diencephalic-mesencephalic junction dysplasia caused by a novel variant in GSX2 and two siblings with a PCDH12 variant exhibiting a less severe phenotype. The siblings with a PCDH12 variant were positioned at the milder end of the phenotypic spectrum. Although both exhibited a clinical phenotype resembling cerebral palsy, one showed partial fusion of the hypothalamus and mesencephalon, whereas MRI was unremarkable in the other. Biallelic GSX2 variants have been implicated in basal ganglia agenesis, and similarly, our patients had basal ganglia hypoplasia along with hypothalamic-mesencephalic fusion., Conclusion: Identifying variants associated with the syndrome in different genes will contribute to genotype-phenotype correlation., Competing Interests: The authors have no conflict of interest to declare., (© 2024 S. Karger AG, Basel.)

Published

2024

42. The mutational and phenotypic spectrum of TUBA1A-associated tubulinopathy

Author

Moritz Hebebrand, Ulrike Hüffmeier, Regina Trollmann, Ute Hehr, Steffen Uebe, Arif B. Ekici, Cornelia Kraus, Mandy Krumbiegel, André Reis, Christian T. Thiel, and Bernt Popp

Subjects

TUBA1A, Tubulin, Tubulinopathy, Lissencephaly, Brain malformation, Microcephaly, Medicine

Abstract

Abstract Background The TUBA1A-associated tubulinopathy is clinically heterogeneous with brain malformations, microcephaly, developmental delay and epilepsy being the main clinical features. It is an autosomal dominant disorder mostly caused by de novo variants in TUBA1A. Results In three individuals with developmental delay we identified heterozygous de novo missense variants in TUBA1A using exome sequencing. While the c.1307G > A, p.(Gly436Asp) variant was novel, the two variants c.518C > T, p.(Pro173Leu) and c.641G > A, p.(Arg214His) were previously described. We compared the variable phenotype observed in these individuals with a carefully conducted review of the current literature and identified 166 individuals, 146 born and 20 fetuses with a TUBA1A variant. In 107 cases with available clinical information we standardized the reported phenotypes according to the Human Phenotype Ontology. The most commonly reported features were developmental delay (98%), anomalies of the corpus callosum (96%), microcephaly (76%) and lissencephaly (agyria-pachygyria) (70%), although reporting was incomplete in the different studies. We identified a total of 121 specific variants, including 15 recurrent ones. Missense variants cluster in the C-terminal region around the most commonly affected amino acid position Arg402 (13.3%). In a three-dimensional protein model, 38.6% of all disease-causing variants including those in the C-terminal region are predicted to affect the binding of microtubule-associated proteins or motor proteins. Genotype-phenotype analysis for recurrent variants showed an overrepresentation of certain clinical features. However, individuals with these variants are often reported in the same publication. Conclusions With 166 individuals, we present the most comprehensive phenotypic and genotypic standardized synopsis for clinical interpretation of TUBA1A variants. Despite this considerable number, a detailed genotype-phenotype characterization is limited by large inter-study variability in reporting.

Published

2019

43. Analysis of 270 fetuses with non‐visualization of cavum septi pellucidi and vergae on in‐utero magnetic resonance imaging.

Author

Griffiths, P. D. and Jarvis, D.

Subjects

*MAGNETIC resonance imaging, *AGENESIS of corpus callosum, *FETUS, *FETAL MRI, *INTRAVENTRICULAR hemorrhage

Published

2020

44. Neurocutaneous melanocytosis (melanosis).

Author

Ruggieri, Martino, Polizzi, Agata, Catanzaro, Stefano, Bianco, Manuela Lo, Praticò, Andrea D., and Di Rocco, Concezio

Subjects

*NEVUS, *NERVOUS system, *ARACHNOID cysts, *CHEMICAL peel, *POSITRON emission tomography, *SYMPTOMS

Abstract

Neurocutaneous melanosis (NCM; MIM # 249400; ORPHA: 2481], first reported by the Bohemian pathologist Rokitansky in 1861, and now more precisely defined as neurocutaneous melanocytosis, is a rare, congenital syndrome characterised by the association of (1) congenital melanocytic nevi (CMN) of the skin with overlying hypertrichosis, presenting as (a) large (LCMN) or giant and/or multiple (MCMN) melanocytic lesions (or both; sometimes associated with smaller "satellite" nevi) or (b) as proliferative melanocytic nodules; and (2) melanocytosis (with infiltration) of the brain parenchyma and/or leptomeninges. CMN of the skin and leptomeningeal/nervous system infiltration are usually benign, more rarely may progress to melanoma or non-malignant melanosis of the brain. Approximately 12% of individuals with LCMN will develop NCM: wide extension and/or dorsal axial distribution of LCMN increases the risk of NCM. The CMN are recognised at birth and are distributed over the skin according to 6 or more patterns (6B patterns) in line with the archetypical patterns of distribution of mosaic skin disorders. Neurological manifestations can appear acutely in infancy, or more frequently later in childhood or adult life, and include signs/symptoms of intracranial hypertension, seizures/epilepsy, cranial nerve palsies, motor/sensory deficits, cognitive/behavioural abnormalities, sleep cycle anomalies, and eventually neurological deterioration. NMC patients may be symptomatic or asymptomatic, with or without evidence of the typical nervous system changes at MRI. Associated brain and spinal cord malformations include the Dandy-Walker malformation (DWM) complex, hemimegalencephaly, cortical dysplasia, arachnoid cysts, Chiari I and II malformations, syringomyelia, meningoceles, occult spinal dysraphism, and CNS lipoma/lipomatosis. There is no systemic involvement, or only rarely. Pathogenically, single postzygotic mutations in the NRAS (neuroblastoma RAS viral oncogene homologue; MIM # 164790; at 1p13.2) proto-oncogene explain the occurrence of single/multiple CMNs and melanocytic and non-melanocytic nervous system lesions in NCM: these disrupt the RAS/ERK/mTOR/PI3K/akt pathways. Diagnostic/surveillance work-ups require physical examination, ophthalmoscopy, brain/spinal cord magnetic resonance imaging (MRI) and angiography (MRA), positron emission tomography (PET), and video-EEG and IQ testing. Treatment strategies include laser therapy, chemical peeling, dermabrasion, and surgical removal/grafting for CMNs and shunt surgery and surgical removal/chemo/radiotherapy for CNS lesions. Biologically targeted therapies tailored (a) BRAF/MEK in NCM mice (MEK162) and GCMN (trametinib); (b) PI3K/mTOR (omipalisib/GSK2126458) in NMC cells; (c) RAS/MEK (vemurafenib and trametinib) in LCMNs cells; or created experimental NMC cells (YP-MEL). [ABSTRACT FROM AUTHOR]

Published

2020

45. A Rare Case of an Infant with Left Hemiparesis: A Case Report of Bilateral Open-lip Schizencephaly.

Author

B. C., Siti, M. M., Zulkifli, S. S., Mohd Yusoff, R., Muhamad, and T. M., Ahmad

Subjects

*HEMIPARESIS, *CONGENITAL disorders, *HUMAN abnormalities, *INFANTS, *LIP diseases, *DEVELOPMENTAL delay

Abstract

Schizencephaly is a very rare congenital birth defect. It is characterized by a cortical brain malformation that manifests as a grey-matter-lined cleft extending from the ependyma to the pia mater. It is a rare condition, and few cases have been reported in the literature. The exact cause is unknown. Herein, we report a case of an infant presenting with left side hemiparesis. The CT scan of her brain revealed right fronto-temporal and left parieto-temporal open-lip schizencephaly; thus, urgent referral to a pediatric neurologist was made for early intervention. [ABSTRACT FROM AUTHOR]

Published

2020

46. Knockdown of Son, a mouse homologue of the ZTTK syndrome gene, causes neuronal migration defects and dendritic spine abnormalities.

Author

Ueda, Masashi, Matsuki, Tohru, Fukada, Masahide, Eda, Shima, Toya, Akie, Iio, Akio, Tabata, Hidenori, and Nakayama, Atsuo

Subjects

SPINE abnormalities, DENDRITIC spines, RNA splicing, NUCLEAR proteins, MUTANT proteins, FACIAL abnormalities

Abstract

Zhu-Tokita-Takenouchi-Kim (ZTTK) syndrome, a rare congenital anomaly syndrome characterized by intellectual disability, brain malformation, facial dysmorphism, musculoskeletal abnormalities, and some visceral malformations is caused by de novo heterozygous mutations of the SON gene. The nuclear protein SON is involved in gene transcription and RNA splicing; however, the roles of SON in neural development remain undetermined. We investigated the effects of Son knockdown on neural development in mice and found that Son knockdown in neural progenitors resulted in defective migration during corticogenesis and reduced spine density on mature cortical neurons. The induction of human wild-type SON expression rescued these neural abnormalities, confirming that the abnormalities were caused by SON insufficiency. We also applied truncated SON proteins encoded by disease-associated mutant SON genes for rescue experiments and found that a truncated SON protein encoded by the most prevalent SON mutant found in ZTTK syndrome rescued the neural abnormalities while another much shorter mutant SON protein did not. These data indicate that SON insufficiency causes neuronal migration defects and dendritic spine abnormalities, which seem neuropathological bases of the neural symptoms of ZTTK syndrome. In addition, the results support that the neural abnormalities in ZTTK syndrome are caused by SON haploinsufficiency independent of the types of mutation that results in functional or dysfunctional proteins. [ABSTRACT FROM AUTHOR]

Published

2020

47. Nationwide epidemiological survey of holoprosencephaly in Japan.

Author

Abe, Yuichi, Araki, Ryuichiro, Sobajima, Hisanori, Tamura, Masanori, Kunikata, Tetsuya, Ohtake, Akira, and Yamanouchi, Hideo

Subjects

*BRAIN abnormalities, *FACIAL abnormalities, *SKULL abnormalities, *ACADEMIC medical centers, *BIRTH rate, *CONFIDENCE intervals, *EVALUATION of medical care, *PREGNANCY, *QUESTIONNAIRES, *GENETIC testing, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *MULTIPLE human abnormalities

Abstract

Background: Holoprosencephaly (HPE) is a congenital malformation with an estimated prevalence of 0.10–6.06 per 10 000 births but with no nationwide data specific to Japan. Methods: This nationwide retrospective questionnaire survey was conducted from 2011 to 2013. All 467 training hospitals for perinatal and neonatal care certified by the Japan Society of Perinatal and Neonatal Medicine were contacted. The birth prevalence rate (BPR) was assessed from the primary survey and clinical characteristics from the secondary survey. Results: We received valid responses from 253 hospitals in the primary survey (54.6%). Of 390 342 live births, 60 were diagnosed with HPE (23 males and 37 females), resulting in an actual BPR of 1.54 per 10 000 live births. The point estimate for HPE cases was 100 (95% confidence interval [CI]: 80.7–120), and the estimated BPR of HPE was calculated to be 0.32 per 10 000 live births (95% CI: 0.26–0.38) based on 3 117 853 live births according to Japanese national statistics during the study period. In the secondary survey, we obtained data for 49 cases (19 males and 30 females). Of these, 20 were alobar (40.8%), 20 were semilobar (40.8%), five were lobar (10.4%), and four were of unknown type. Genetic examination was performed in 37 of the 49 HPE patients and revealed that chromosomes 13, 18, and 7 were affected in eight, six, and four patients, respectively. Conclusions: This is the most extensive survey on holoprosencephaly to date in Japan. The estimated BPR was consistent with that reported in previous research. [ABSTRACT FROM AUTHOR]

Published

2020

48. Fetal MRI of the Brain and Spine

Author

Dremmen, Marjolein H. G., Ellen Grant, P., Huisman, Thierry A. G. M., Hodler, Jürg, editor, Kubik-Huch, Rahel A., editor, and von Schulthess, Gustav K., editor

Published

2016

49. Lipoma

Author

Bonneville, Fabrice, Bonneville, Jean-François, Bonneville, Fabrice, Cattin, Françoise, and Nagi, Sonia

Published

2016

50. Tight junction protein occludin regulates progenitor Self-Renewal and survival in developing cortex

Author

Raphael M Bendriem, Shawn Singh, Alice Abdel Aleem, David A Antonetti, and M Elizabeth Ross

Subjects

centrosome regulation, cortical neurogenesis, microcephaly, OCLN, tight junction protein, brain malformation, Medicine, Science, Biology (General), QH301-705.5

Abstract

Occludin (OCLN) mutations cause human microcephaly and cortical malformation. A tight junction component thought absent in neuroepithelium after neural tube closure, OCLN isoform-specific expression extends into corticogenesis. Full-length and truncated isoforms localize to neuroprogenitor centrosomes, but full-length OCLN transiently localizes to plasma membranes while only truncated OCLN continues at centrosomes throughout neurogenesis. Mimicking human mutations, full-length OCLN depletion in mouse and in human CRISPR/Cas9-edited organoids produce early neuronal differentiation, reduced progenitor self-renewal and increased apoptosis. Human neural progenitors were more severely affected, especially outer radial glial cells, which mouse embryonic cortex lacks. Rodent and human mutant progenitors displayed reduced proliferation and prolonged M-phase. OCLN interacted with mitotic spindle regulators, NuMA and RAN, while full-length OCLN loss impaired spindle pole morphology, astral and mitotic microtubule integrity. Thus, early corticogenesis requires full-length OCLN to regulate centrosome organization and dynamics, revealing a novel role for this tight junction protein in early brain development.

Published

2019