Mineralocorticoid receptor antagonist monotherapy in pediatric non-classical 11ß-hydroxylase deficiency.

OBJECTIVES: Congenital adrenal hyperplasia (CAH) is an uncommon genetic disorder which affects cortisol production in the adrenal glands. It is usually treated with glucocorticoids. We present a case of non-classical CAH caused by the partial deficiency of 11 beta-hydroxylase (11ßOH) which was treated with aldosterone antagonist (eplerenone) monotherapy. CASE PRESENTATION: An adolescent male was diagnosed with 11 beta-hydroxylase deficiency (11ßOHD) at 13 years of age when he presented with hypertension, fatigue and headaches. He was initially treated with glucocorticoids, but requested an alternative therapy. Eplerenone was commenced at 25 mg with subsequent dose increases to 100 mg daily. His hypertension was controlled on this regimen, achieving a 24 h average blood pressure of 124/81 mmHg. CONCLUSIONS: CAH caused by 11ßOHD is a known cause of hypertension. It is usually managed with glucocorticoids, and antihypertensives are added if blood pressure remains uncontrolled. In this case, glucocorticoid therapy was not tolerated and treatment with aldosterone antagonist monotherapy was effective in controlling his hypertension.

Approaches to Measuring Beta Cell Reserve and Defining Partial Clinical Remission in Paediatric Type 1 Diabetes.

CONTEXT: Type 1 diabetes (T1D) results from the autoimmune T-cell mediated destruction of pancreatic beta cells leading to insufficient insulin secretion. At the time of diagnosis of T1D, there is residual beta cell function that declines over the subsequent months to years. Recent interventions have been approved to preserve beta cell function in evolving T1D. OBJECTIVE: The aim of this review is to summarise the approaches used to assess residual beta cell function in evolving T1D, and to highlight potential future directions. METHODS: Studies including subjects aged 0 to 18 years were included in this review. The following search terms were used; "(type 1 diabetes) and (partial remission)" and "(type 1 diabetes) and (honeymoon)". References of included studies were reviewed to determine if additional relevant studies were eligible. RESULTS: There are numerous approaches to quantifying beta cell reserve in evolving T1D. These include c-peptide measurement after a mixed meal or glucagon stimuli, fasting c-peptide, the urinary c-peptide/creatinine ratio, insulin dose-adjusted haemoglobin A1c, and other clinical models to estimate beta cell function. Other biomarkers may have a role, including the proinsulin/c-peptide ratio, cytokines, and microRNA. Studies using thresholds to determine if residual beta cell function is present often differ in values used to define remission. CONCLUSIONS: As interventions are approved to preserve beta cell function, it will become increasingly necessary to quantify residual beta cell function in research and clinical contexts. In this report, we have highlighted the strengths and limitations of the current approaches.