Abstract
BackgroundAldosterone (Ald) is a crucial factor in maintaining electrolyte and water homeostasis. Defect in either its synthesis or function causes salt wasting (SW) manifestation. This disease group is rare, while most reported cases are sporadic. This study aimed to obtain an overview of the etiology and clinical picture of patients with the above condition and report our rare cases.MethodsA combination of retrospective review and case studies was conducted at the Pediatric Endocrine unit of The First Affiliated Hospital Sun Yat Sen University from September 1989 to June 2020.ResultsA total of 187 patients with SW were enrolled, of which 90.4% (n = 169) were diagnosed with congenital adrenal hyperplasia (CAH). SW type 21-hydroxylase deficiency accounted for 98.8% (n = 167) of CAH diagnosis, while 1.2% (n = 2) was of lipoid CAH. Non-CAH comprised 9.6% (n = 18) of the total patients whose etiologies included SF-1 gene mutation (n = 1), X-linked adrenal hypoplasia congenita (n = 9), aldosterone synthase deficiency (ASD, n = 4), and pseudo-hypoaldosteronism type 1 (PHA1, n = 1). Etiologies were not identified in three patients. All of patients with ASD and PHA1 exhibited SW syndrome in their early neonatal period. DNA sequencing showed mutations of CYP11B2 for P1-P4 and NR3C2 for P5. P1 and P2 were sibling brothers affected by compound heterozygous mutations of c.1121G > A (p.R374Q) and c.1486delC p.(L496fs); likewise, P4 was identified with compound heterozygous mutations of c.1200 + 1G > A and c.240–1 G > T; meanwhile P3 demonstrated c.1303G > A p.(G435S) homozygous mutation in CYP11B2 gene. Lastly, P5 showed c.1768 C > T p.(R590*) heterozygous mutation in the NR3C2 gene.ConclusionEtiology of infant with aldosterone defect was mostly congenital. Renal and adrenal imaging are recommended to exclude renal causes. If clinical picture is suggestive, normal plasma Ald in early infancy cannot rule out aldosterone insufficiency.
Highlights
Aldosterone (Ald) is a crucial factor in maintaining electrolyte and water homeostasis
Nine patients who demonstrated NROB1 gene mutation were diagnosed as X-linked adrenal hypoplasia congenita (X-AHC)
Whereas four patients from three unrelated families were confirmed as aldosterone synthase deficiency (ASD), one patient was confirmed as renal PHA type 1 (PHA1)
Summary
Aldosterone (Ald) is a crucial factor in maintaining electrolyte and water homeostasis. Defect in either its synthesis or function causes salt wasting (SW) manifestation. This disease group is rare, while most reported cases are sporadic. Sodium is the major electrolyte component in extracellular fluid (ECF) and Aldosterone (Ald), which is synthesized by the adrenal cortex, plays an important role in controlling sodium (Na), potassium (K), chloride (Cl), hydrogen ion, and water homeostasis in humans. Ald signaling defect, including impairment of Ald. Wijaya et al BMC Endocrine Disorders (2021) 21:149 synthesis or function, causes salt wasting (SW) manifestation typically characterized by hyponatremia, metabolic acidosis, hypovolemia with or without hyperkalemia [2, 3]. Clinical symptoms and biological parameters return to normal after resolution of the infection
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