Yaprak Deniz, Kara Hüdaverdi, Calisici Erhan, Karagöl Belma Saygılı, Altan Mustafa
Gulhane Medicine Faculty, Department of Pediatrics, Division of Neonatology, University of Health Sciences, Ankara, Turkey.
Gulhane Medicine Faculty, Department of Pediatrics, University of Health Sciences, Ankara, Turkey.
Birth Defects Res. 2023 Oct 15;115(17):1674-1679. doi: 10.1002/bdr2.2235. Epub 2023 Aug 16.
Bartter syndrome (BS) is a rare congenital salt-losing renal tubular transport disorder, characterized by salt wasting, polyuria, biochemical abnormalities, and acid-base homeostasis imbalance. The syndrome has five different genetic forms, and novel mutations of CLCNKB gene lead to type 3 BS also known as classic BS. In this case, we report clinical and molecular findings from a newborn baby with BS.
A 10-day-old male infant born at 37 weeks of gestation by cesarean section following a pregnancy complicated with polyhydramnios, and fetal distress to a 30-year-old gravida 3, para 3 mother, with a 2500 g birth weight was brought to the pediatric emergency department due to weight loss and jaundice. The neonate was referred to the neonatal intensive care unit (NICU) with a preliminary diagnosis of hyponatremic dehydration (Na: 122 mmol/L, 10% dehydration) and hypokalemic hypochloremic metabolic alkalosis (K: 2.13 mmol/L, Cl: 63 mmol/L, pH: 7.62, pCO : 39 mmHg, HCO : 40.8 mmol/L, BE: 16.9 mmol/L), and hypocalcemia (ionized Ca: 0.72 mmol/L). On arrival to the NICU, symptomatic focal seizures, and polyuria complicated his course. Spot urine biochemistry revealed a renal salt wasting and hypercalciuria: Creatine 11.4 mg/dL Na: 51 mmol/L (54-150), K: 26 mmol/L (20-80), Cl: 164 mmol/L, fractional excretion of sodium (FENa): 3% (0.9-1.6), fractional excretion of chloride (FECl): 17% (<0.5%) and Ca/Cr: 0.33 (<0.2). Biochemical abnormalities disappeared through intravenous fluid and electrolyte therapy, but he could not achieve adequate weight gain, and polyuric urine output (6.5 cc/kg/h), and metabolic alkalosis continued as the enteral feedings advance. Patient's serum renin: 184 pg/mL (5-27 pg/mL) and aldosterone: 1670 pg/mL (1-180 ng/dL) were elevated. Polyuria, renal salt wasting, electrolyte and acid-base disturbances, and hyperreninemic hyperaldosteronism established the diagnosis as Bartter syndrome. An oral indomethacin (1 mg/kg/day) treatment, on the 8th day. ensured the weight gain, and normalized daily urine output. He achieved the goal of birth weight on the 30th day and he was 3520 g weight at discharge on day 42. The genetic tests of the patient as KCNJ1 SLC12A1 gene sequence analysis revealed a novel homozygous mutation in the 14th exon of the CLCNKB gene, the c.1334_1338del CTTTT (p. Ser445fs*4) variant was identified.
The diagnosis of BS should be considered in the presence of a medical history of severe polyhydramnios of fetal origin. Postnatally, polyuria, signs of dehydration, renal salt wasting, and hypokalemic-metabolic alkalosis should prompt the clinician to request genetic testing for BS in the neonatal period. This case is presented to emphasize that early diagnosis of BS should be considered in newborns presenting with electrolyte abnormalities and metabolic alkalosis accompanying dehydration and favorable growth results can be achieved by starting indomethacin treatment in the early neonatal period. The clinical exome sequencing illustrated a novel missense variant in the CLCNKB gene leading to the molecular diagnosis of BS type 3.
巴特综合征(BS)是一种罕见的先天性失盐性肾小管转运障碍疾病,其特征为盐丢失、多尿、生化异常以及酸碱平衡失调。该综合征有五种不同的遗传形式,CLCNKB基因的新突变会导致3型BS,也称为经典型BS。在此病例中,我们报告了一名患有BS的新生儿的临床和分子学发现。
一名10日龄男婴,孕37周剖宫产出生,母亲为30岁经产妇,此次妊娠合并羊水过多及胎儿窘迫,出生体重2500g。因体重减轻和黄疸被送至儿科急诊科。该新生儿被转诊至新生儿重症监护病房(NICU),初步诊断为低钠血症性脱水(血钠:122mmol/L,10%脱水)、低钾低氯性代谢性碱中毒(血钾:2.13mmol/L,血氯:63mmol/L,pH:7.62,pCO₂:39mmHg,HCO₃⁻:40.8mmol/L,碱剩余:16.9mmol/L)以及低钙血症(离子钙:0.72mmol/L)。到达NICU后,出现症状性局灶性癫痫发作且病程中伴有多尿。随机尿生化检查显示肾性失盐和高钙尿症:肌酐11.4mg/dL,血钠:51mmol/L(54 - 150),血钾:26mmol/L(20 - 80),血氯:164mmol/L,钠排泄分数(FENa):3%(0.9 - 1.6),氯排泄分数(FECl):17%(<0.5%),钙/肌酐:0.33(<0.2)。通过静脉补液和电解质治疗,生化异常消失,但体重未能充分增加,随着肠内喂养的推进,多尿(6.5cc/kg/h)和代谢性碱中毒持续存在。患者血清肾素:184pg/mL(5 - 27pg/mL)和醛固酮:1670pg/mL(1 - 180ng/dL)升高。多尿、肾性失盐、电解质和酸碱紊乱以及高肾素性高醛固酮血症确诊为巴特综合征。在第8天开始口服吲哚美辛(1mg/kg/天)治疗,确保了体重增加,并使每日尿量恢复正常。患儿在第30天达到出生体重,42天出院时体重为3520g。对患者进行KCNJ1、SLC12A1基因序列分析的基因检测发现CLCNKB基因第14外显子有一个新的纯合突变,鉴定为c.1334_1338del CTTTT(p.Ser445fs*4)变异。
如果存在胎儿期严重羊水过多的病史,应考虑诊断为BS。出生后,多尿、脱水体征、肾性失盐以及低钾性代谢性碱中毒应促使临床医生在新生儿期进行BS的基因检测。本病例旨在强调,对于出现电解质异常、伴有脱水的代谢性碱中毒的新生儿,应考虑早期诊断BS,并且在新生儿早期开始吲哚美辛治疗可取得良好的生长结果。临床外显子测序显示CLCNKB基因有一个新的错义变异,从而得出3型BS的分子诊断。
