Phenotypic spectrum and diagnostic challenges in non-21-alpha-hydroxylase deficiency congenital adrenal hyperplasia: a case series from a tertiary care center.

Q3 Medicine

Endocrine regulations Pub Date : 2025-08-28 Print Date: 2025-01-01 DOI:10.2478/enr-2025-0015

Anand Sheya, Nayana Tara Vasireddy, Shriraam Mahadevan, Asha Ranjan, Adlyne Reena Asirvatham, Sai Namratha Gogineni

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Abstract

Objectives. The aim of the present study was 1) to describe the phenotypic spectrum of non-21-alfa-hydroxylase deficiency (non-21-OHD) congenital adrenal hyperplasia (CAH) encountered in a tertiary care endocrine center; 2) to identify the key biochemical, hormonal, and genetic markers that aid in differentiating non-21-OHD CAH subtypes; 3) to highlight the diagnostic challenges faced in distinguishing non-21-OHD CAH from classic 21OHD CAH and other adrenal disorders; and 4) to discuss the clinical implications and management challenges associated with non-21-OHD CAH. Methods. A retrospective analysis identified 13 cases of non-21-OHD CAH out of 87 CAH patients between 2008 to 2022. Clinical, biochemical, imaging and genetic data were analyzed. The diagnosis was confirmed by hormonal assays and next-generation sequencing (NGS)-based genetic analysis. Results. Of the 13 cases, six patients had 11β-hydroxylase deficiency (11β-OHD), primarily presenting with precocious puberty, hypertension, and hyperpigmentation, with elevated ACTH, 17-hydroxyprogesterone (17-OHP), and suppressed renin levels. Three patients with 3β-hydroxysteroid dehydrogenase type 2 (3β-HSD2) deficiency were diagnosed in early infancy following salt-wasting crises. 17α-hydroxylase deficiency (17α-OHD) was diagnosed in three adolescent females presenting with primary amenorrhea, tall stature, hypertension, and elevated gonadotropins. One case of StAR deficiency was diagnosed at 45 days of life, presenting with adrenal crisis and severe adrenal insufficiency. Conclusion. Non-21-OHD CAH presents diagnostic challenges due to its varied clinical spectrum. Hypertension and hypokalemia are key differentiators for 11β-OHD and 17α-OHD, while steroid profiling (LC-MS) aids in diagnosing 3β-HSD2 deficiency. However, the most crucial aspect is the early diagnosis, which is a significant factor in preventing complications like hypertensive cardiomyopathy and adrenal crises.

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非21- α -羟化酶缺乏症先天性肾上腺增生的表型谱和诊断挑战：来自三级保健中心的病例系列。

目标。本研究的目的是1)描述在三级保健内分泌中心遇到的非21- α -羟化酶缺乏症（非21- ohd）先天性肾上腺增生症（CAH）的表型谱；2)鉴定有助于区分非21- ohd CAH亚型的关键生化、激素和遗传标记；3)强调区分非21- ohd CAH与典型21- ohd CAH及其他肾上腺疾病所面临的诊断挑战；4)讨论与非21- ohd CAH相关的临床意义和管理挑战。方法。回顾性分析发现，在2008年至2022年间，87例CAH患者中有13例非21- ohd CAH。分析临床、生化、影像学及遗传学资料。通过激素检测和基于下一代测序（NGS）的基因分析证实了诊断。结果。13例患者中，6例患者存在11β-羟化酶缺乏症（11β-OHD），主要表现为性早熟、高血压、色素沉着，ACTH、17-羟基孕酮（17-OHP）升高，肾素水平下降。3例3β-羟基类固醇脱氢酶2型（3β-HSD2）缺乏症在婴儿早期被诊断为盐消耗危机。17α-羟化酶缺乏症（17α-OHD）被诊断为原发性闭经，高个子，高血压和促性腺激素升高。1例StAR缺乏症在出生45天被诊断为肾上腺危象和严重的肾上腺功能不全。结论。非21- ohd CAH由于其不同的临床谱呈现诊断挑战。高血压和低钾血症是11β-OHD和17α-OHD的关键鉴别因子，而类固醇谱分析（LC-MS）有助于诊断3β-HSD2缺乏症。然而，最关键的方面是早期诊断，这是预防高血压心肌病和肾上腺危机等并发症的重要因素。

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