Shortened fetal long bones: A notable intrauterine phenotypic feature in SHOX‐associated skeletal dysplasia

Author:

Hu Rong12,Huang Weiwei12,Ren Congmian12,Liu Ling12,Hou Yaping12,Wang Yunan12,Lu Jian12ORCID

Affiliation:

1. Medical Genetic Center Guangdong Women and Children Hospital Guangzhou China

2. Maternal and Children Metabolic‐Genetic Key Laboratory Guangdong Women and Children Hospital Guangzhou China

Abstract

AbstractObjectiveTo explore the intrauterine phenotypic spectrum of short stature homeobox‐containing (SHOX) gene‐associated skeletal dysplasia and provide genetic counseling at‐risk pregnancies.MethodWe analyzed the fetuses with SHOX‐microdeletions identified by single nucleotide polymorphism (SNP)‐array. The intrauterine phenotypes and outcomes were further elaborated.ResultsNine fetuses carrying a single SHOX‐microdeletion were reported, with deletion sizes ranging from 0.134 to 1.35 Mb. Shortened long bones were observed in all fetuses, varying from −2.0 standard deviation (SD) to −5.3 SD. Moreover, all cases had a femur length/foot ratio less than 0.87 and a femur/abdominal circumference ratio greater than 0.16, suggesting that non‐lethal skeletal dysplasia may be involved. Two fetuses showed intrauterine growth restriction, and two had nasal bone hypoplasia. Prenatal ultrasonography did not reveal other obvious anomalies, including the Madelung deformity. Five microdeletions were inherited and one was de novo. Five terminations and four newborns were recorded. Two newborns had normal stature, and two were short‐statured (height <3rd percentile), with one having inflexible wrists.ConclusionsSHOX haploinsufficiency may manifest with shortened fetal long bones. The combination of history taking, prenatal ultrasonography, and SNP‐array can prompt early prenatal diagnosis and timely postnatal treatment of SHOX‐associated skeletal dysplasia.

Publisher

Wiley

Subject

Genetics (clinical),Obstetrics and Gynecology

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