Vijayakumar Vishnu, Kumar Nitish, Kumar Devesh, Abhinay Abhishek, Singh Ankur, Prasad Rajniti
Department of Pediatrics, Division of Pediatric Nephrology, Institute of Medical Sciences-Banaras Hindu University (IMS-BHU), Varanasi, India.
Indian J Nephrol. 2025 May-Jun;35(3):427-428. doi: 10.25259/IJN_83_2024. Epub 2024 May 18.
A 3-year-old boy presented with polyuria and polydipsia for 18 months, along with growth failure. He was born prematurely, at 34 weeks of gestation, with a low birth weight. On examination, the child was severely underweight and hypertensive. Clinical history and evaluation could not identify any secondary causes of hypertension. There was no significant family history. An endocrine workup was planned, considering hypokalemia and metabolic alkalosis. This demonstrated hyporeninemic hypoaldosteronism and raised the possibility of apparent mineralocorticoid excess (AME) and Liddle syndrome. Clinical exome sequence analysis of revealed a homozygous mutation in exon 5 (911A>G; p.His304Arg), which resulted in a missense mutation that confirmed the diagnosis of AME. A novel homozygous variant was found in the gene in a subject with early onset hypertension associated with hypokalemic metabolic alkalosis, establishing the diagnosis of AME.
一名3岁男孩出现多尿和烦渴18个月,同时伴有生长发育迟缓。他早产,孕34周出生,出生体重低。检查时,该儿童严重体重不足且患有高血压。临床病史和评估未发现任何高血压的继发原因。无显著家族史。考虑到低钾血症和代谢性碱中毒,计划进行内分泌检查。检查结果显示为低肾素性低醛固酮血症,增加了表观盐皮质激素过多(AME)和利德尔综合征的可能性。临床外显子序列分析显示第5外显子存在纯合突变(911A>G;p.His304Arg),这导致了一个错义突变,确诊为AME。在一名患有与低钾性代谢性碱中毒相关的早发性高血压的受试者中,在该基因中发现了一个新的纯合变异,确诊为AME。