Whole‐exome sequencing of a unique brain malformation with periventricular heterotopia,cingulate polymicrogyria and midbrain tectal hyperplasia |
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| Authors: | Akihisa Okumura Masaharu Hayashi Keiko Shimojima Mitsuru Ikeno Tomohisa Uchida Jun‐ichi Takanashi Nobuhiko Okamoto Ken Hisata Hiromichi Shoji Akira Saito Toru Furukawa Tetsuko Kishida Toshiaki Shimizu Toshiyuki Yamamoto |
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| Affiliation: | 1. Department of Pediatrics, Juntendo University Faculty of Medicine, , Tokyo, Japan;2. Department of Brain Development and Neural Regeneration, Tokyo Metropolitan Institute of Medical Science, , Tokyo, Japan;3. Tokyo Women's Medical University Institute for Integrated Medical Sciences, , Tokyo, Japan;4. Department of Forensic Medicine, Oita University Faculty of Medicine, , Oita, Japan;5. Department of Pediatrics, Kameda Medical Center, , Kamogawa, Japan;6. Department of Medical Genetics, Osaka Medical Center and Research Institute for Maternal and Child Health, , Osaka, Japan;7. Statistical Genetics Analysis Division, StaGen Co., Ltd., , Tokyo, Japan |
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| Abstract: | ![]()
We report a case of an infant with unique and unreported combinations of brain anomalies. The patient showed distinctive facial findings, severe delay in psychomotor development, cranial nerve palsy and seizures. Brain magnetic resonance imaging performed at 5 days of age revealed complex brain malformations, including heterotopia around the mesial wall of lateral ventricles, dysmorphic cingulate gyrus, and enlarged midbrain tectum. The patient unexpectedly died at 13 months of age. Postmortem pathological findings included a polymicrogyric cingulate cortex, periventricular nodular heterotopia, basal ganglia and thalamic anomalies, and dysmorphic midbrain tectum. Potential candidate genes showed no abnormalities by traditional PCR‐based sequencing. Whole‐exome sequencing confirmed the presence of novel gene variants for filamin B (FLNB), guanylate binding protein family member 6, and chromosome X open reading frame 59, which adapt to the autosomal recessive mode or X‐linked recessive mode. Although immunohistochemical analysis confirmed the expression of FLNB protein in the vessel walls and white matter in autopsied specimens, there may be functional relevance of the compound heterozygous FLNB variants during brain development. |
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| Keywords: | brainstem malformation exome sequence filamin B periventricular nodular heterotopia polymicrogyria |
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