医学
身材矮小
内科学
内分泌学
突变
特发性矮身高
发育不良
利钠肽
激素
生物
遗传学
心力衰竭
基因
生长激素
作者
Xiaoan Ke,Hanting Liang,Hui Miao,Hongbo Yang,Linjie Wang,Fengying Gong,Hui Pan,Hui Zhu
标识
DOI:10.1210/clinem/dgaa842
摘要
Abstract Context The natriuretic peptide receptor 2 gene (NPR2) is a causative gene of idiopathic short stature (ISS) with an incidence rate of 2% to 6%. The clinical characteristics of patients with NPR2 heterozygous mutations are atypical, and data on the efficacy of recombinant human growth hormone (rhGH) treatment in patients with NPR2 mutations are limited. Objectives This work reports 6 cases with NPR2 mutation and explores the characteristics of patients with an NPR2 mutation and their therapeutic response to rhGH. Design, Settings, and Patients Six Chinese short-stature patients in our hospital with NPR2 mutations by whole-exome sequencing were included. We also searched all previously published NPR2 mutation cases as of August 10, 2020, and information about their medical history, mutations, and rhGH treatment were recorded and summarized. Results The clinical characteristics of patients with an NPR2 heterozygous mutation mainly included short stature, facial anomalies, and skeletal dysplasia. Skeletal dysplasia mainly included brachydactyly (56.2%), shortened metacarpals or metatarsals (particularly fourth to fifth; 26.1%), and clinodactyly (21.7%). rhGH treatment significantly improved the height SD score (SDS) of patients with NPR2 heterozygous mutations (median, –2.1 vs –2.9, P < .001), especially in girls. The height SDS change correlated negatively with initial age of treatment (r = –0.477; P = .034), and height SDS change of patients with NPR2 heterozygous mutations in the carboxyl-terminal guanylyl cyclase catalytic domain was significantly higher than that of the extracellular ligand-binding region domain (median, 1.9 vs 0.6, P = .019). Conclusions ISS patients with skeletal deformities should be tested for an NPR2 mutation. rhGH treatment is beneficial for short-stature patients with NPR2 heterozygous mutations and needs further study.
科研通智能强力驱动
Strongly Powered by AbleSci AI