Retrospective study of the renal function using estimated glomerular filtration rate and congenital anomalies of the kidney-urinary tract in pediatric Turner syndrome.

Although Turner syndrome (TS) is frequently associated with congenital anomalies of the kidney-urinary tract (CAKUT), which is a major cause of pediatric chronic kidney disease, renal function in TS is usually considered normal. The present study aimed to analyze the frequency of renal dysfunction and CAKUT in pediatric patients with TS. Our study included 122 patients with TS between the ages of 2 and 18 years from 30 hospitals across Japan. Clinical data related to renal function and CAKUT were retrospectively collected. The estimated glomerular filtration rate (eGFR) was calculated using the serum creatinine-based formula recommended by the Japanese Society for Pediatric Nephrology. An eGFR <90 mL/min/1.73 m2 for two consecutive years was defined as renal dysfunction. Fifteen (13.5%) of 122 patients had CAKUT, and four patients had renal dysfunction (3.2%, 95% confidence interval: 0%-6.7%). Three of the four did not have CAKUT. Of the CAKUT manifestations, horseshoe kidney, renal hypodysplasia, and multicystic dysplastic kidney were seen in nine, two, and one patient, respectively. Eight of the nine patients with horseshoe kidney had a normal renal function; however, the remaining patient with renal hypodysplasia had renal dysfunction. A small percentage of patients with pediatric TS may had an eGFR below 90 mL/min/1.73 m2 which was not necessarily associated with CAKUT.

Gitelman syndrome caused by a novel hemiallelic missense mutation in SLC12A3 revealed by 16q12.2q21 microdeletion.

Gitelman syndrome (GS) is caused by biallelic mutations in SLC12A3 as an autosomal recessive trait. A patient with a de novo 16q12.2q21 microdeletion showed clinical features of GS. SLC12A3 included in the deletion was analyzed, and a rare missense variant (c.1222A>C [p.N406H]) was identified as hemizygous. Consequently, GS was caused by the revealed SLC12A3 variant owing to chromosomal microdeletion.