Fig 3 - uploaded by Peng-Hui Peter Wang
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(A) Anterior view: thin upper lip with thick lower lip and large anterior fontanelle; (B) lateral view; (C) polydactyly of right hand.
Source publication
To present a prenatal diagnosis of microdeletion 16p13.11 with partial monosomy of 2q37.1-qter and partial trisomy of 7p15.3-pter in a fetus with bilateral ventriculomegaly, agenesis of corpus callosum, and polydactyly.
A 41-year-old well-being Taiwanese, nulligravida woman received amniocentesis at a gestational age of 18 weeks for advanced matern...
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Citations
... It reported that genomic aberration at chromosome 16p13.11 involves in the formation polydactyly, bilateral ventriculomegaly and corpus callosum agenesis [25]. Ratna Tripathy et al.(2018) reported that de novo mutations in MAST1 cause mega-corpus-callosum syndrome with cerebellar hypoplasia and cortical malformations, a disease characterized by a striking enlargement of the corpus callosum, cerebellar hypoplasia, and cortical malformations [10]. ...
Background: The corpus callosum is the main pathway connect the interhemispheric communication. Corpus callosum agenesis from asymptomatic to mild or severe neurodevelopmental disorders. However, few cases have been previously reported in the literature on prenatal diagnosis between corpus callosum agenesis and chromosomes abnormality. The study included prenatal diagnosis of 4 fetuses in whom prenatal ultrasound showed corpus callosum abnormality, isolated or associated with other central nervous lesions.
Case presentation: Prenatal diagnoses of four children were summarized in our case. The routine prenatal ultrasound examination showed abnormal morphology of corpus callosum in fetus 1, dysplasia of the corpus callosum in fetus 3, the corpus callosum absence in fetus 2 and fetus 4, and fetus 4 also had cardiac abnormalities. Chromosomal microarray and G-band karyotype analysis were performed to provide genetic analysis of amniotic fluid. The results revealed 4.8M deletion at 1p36.33p36.31 in fetus 1, 3.1M deletion at Xq26.3q27.1 in fetus 2, 6.5M deletion at distal 1q43q44 and a duplication of 8.8M at 7q36.1q36.3 in fetus 3, fetus 4 had a deletion of 9.51M at 1p36.33p36.22 and 14.3M duplication at 6q25.3q27.
Conclusion: The genetic mechanism of corpus callosum agenesis is variably complex, and its clinical phenotype may occur either alone or in association with other abnormalities. This study revealed the microabnormalities of multiple chromosomes are related to the corpus callosum abnormality. Combined with ultrasound examination, the application of chromosome microarray analysis will effectively improve the diagnosis of congenital submicroscopic chromosomal abnormalities in fetuses.
We present rapid aneuploidy diagnosis of ring chromosome 2 with 2p25.3 and 2q37.3 microdeletions by aCGH using uncultured amniocytes in a fetus with IUGR, microcephaly, lissencephaly and ambiguous external genitalia. Our case adds lissencephaly to the list of CNS abnormalities in ring chromosome 2 with 2p25.3 and 2q37.3 microdeletions. We discuss the consequence of haploinsufficiency of HDAC4, KIF1A, PASK, HDLBP, FRAP2 and D2HGDH on 2q37.3, and haploinsufficiency of MYT1L, SNTG2 and TPO on 2p25.3 in this case.
