Meihua Xie scite author profile

Meihua Xie

3Publications

4Citation Statements Received

45Citation Statements Given

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Yueyang Hospital

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Etiological identification of recurrent male fatality due to a novel NSDHL gene mutation using trio whole‐exome sequencing: A rare case report and literature review

Zhuang

Luo

Xie

et al. 2022

Molec Gen & Gen Med

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Background Congenital hemidysplasia with ichthyosiform nevus and limb defects (CHILD) syndrome is a rare X‐linked dominant, lethal male disorder caused by mutations to the NSDHL (NAD(P)H steroid dehydrogenase‐like protein) gene. It primarily exhibits strictly unilateral congenital hemidysplasia with ichthyosiform erythroderma and ipsilateral limb defects in female individuals. Methods A Chinese couple suffering from recurrent spontaneous abortion in male fetuses was enrolled in this study. Chromosomal microarray analysis and whole‐exome sequencing were performed for genetic etiological diagnosis. Results A 33‐year‐old pregnant woman with recurrent spontaneous abortion was experiencing her third pregnancy with a male embryo. In this pregnancy, a miscarriage occurred at a gestational age of 10+6 weeks with no copy number variants. However, a novel mutation c.790‐6C>T in the NSDHL gene was observed in the fetus through whole‐exome sequencing (WES). Parental verification indicated that the NSDHL gene variant was inherited from the mother. Additionally, the variant in the NSDHL gene was absent in her subsequent pregnancy with a female fetus. Conclusion In this study, we detected c.790‐6C>T, a novel variant in the NSDHL gene that results in recurrent miscarriage in males. Our study may broaden the scope of research on the NSDHL gene in CHILD syndrome and strengthens the application value of WES for the genetic etiological identification of recurrent miscarriage.

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Diagnosis of prenatal 22q11.2 duplication syndrome: a two-case study

Yang

Chen

et al. 2022

J Genet

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A de novo PAK1 likely pathogenic variant and a de novo terminal 1q microdeletion in a Chinese girl with global developmental delay, severe intellectual disability, and seizures

Zhuang¹,

Xie

Yao³

et al. 2023

BMC Med Genomics

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Background Pathogenic PAK1 variants were described to be causative of neurodevelopmental disorder with macrocephaly, seizures, and speech delay. Herein, we present a de novo PAK1 variant combine with a de novo terminal 1q microdeletion in a Chinese pediatric patient, aiming to provide more insights into the underlying genotype–phenotype relationship. Methods Enrolled in this study was a 6-year-old girl with clinical features of global developmental delay, severe intellectual disability, speech delay, and seizures from Quanzhou region of China. Karyotype and chromosomal microarray analysis (CMA) were performed to detect chromosome abnormalities in this family. Whole exome sequencing (WES) was performed to investigate additional genetic variants in this family. Results No chromosomal abnormalities were elicited from the entire family by karyotype analysis. Further familial CMA results revealed that the patient had a de novo 2.7-Mb microdeletion (arr[GRCh37] 1q44(246,454,321_249,224,684) × 1]) in 1q44 region, which contains 14 OMIM genes, but did not overlap the reported smallest region of overlap (SRO) responsible for the clinical features in 1q43q44 deletion syndrome. In addition, WES result demonstrated a de novo NM_002576: c.251C > G (p.T84R) variant in PAK1 gene in the patient, which was interpreted as a likely pathogenic variant. Conclusion In this study, we identify a novel PAK1 variant associated with a terminal 1q microdeletion in a patient with neurodevelopmental disorder. In addition, we believe that the main clinical features may ascribe to the pathogenic variant in PAK1 gene in the patient.

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Meihua Xie

Etiological identification of recurrent male fatality due to a novel NSDHL gene mutation using trio whole‐exome sequencing: A rare case report and literature review

Diagnosis of prenatal 22q11.2 duplication syndrome: a two-case study

A de novo PAK1 likely pathogenic variant and a de novo terminal 1q microdeletion in a Chinese girl with global developmental delay, severe intellectual disability, and seizures

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