Antifungal therapy with azoles induced the syndrome of acquired apparent mineralocorticoid excess: A literature and database analysis

Objective. We aimed to estimate the risk of varied antifungal therapy with azoles causing the syndrome of acquired apparent mineralocorticoid excess (AME) in the real-world practice. Methods. First, we conducted a disproportionality analysis based on data from the FDA Adverse Event Reporting System (FAERS) database to characterize the signal differences of triazoles - related AME. Second, a systematic review was conducted, and to describe clinical features of AME cases reported in clinical practice. Results. In the FAERS database, we identified 27 cases of triazoles - AME, posaconazole [ROR=865.37; 95%CI (464.14; 1613.45)] and itraconazole [ROR=556.21; 95% (303.05; 1020.85)] significantly increased the risk of AME events, while fluconazole, voriconazole and isavuconazole did not affect any of the mineralocorticoid excess targets. 18 studies with 39 cases raised evidence of AME following posaconazole and itraconazole treatment, and another 27 cases were identified by analysis of the description of clinical features in FAERS database. The average age of 66 patients was 55.5 years (6∼87 years). AME mainly occurs in patients with posaconazole concentrations above 3 μg/mL (mean=4.4μg/mL, range 1.8∼9.5μg/mL), and is less likely to occur when levels are below 2 μg/mL (6%). The median time to event onset was 11.5 weeks, and 50% of the adverse events occurred within 3 months for posaconazole. Conclusion. The presented study supports very recent findings that posaconazole and itraconazole but not the other three azole antifungals investigated are associated with AME and the effects were dose-dependent, which allows for a dose de-escalation strategy and for substitution with fluconazole, isavuconazole or voriconazole to resolve the adverse effects.

Novel metabolomic profile of subjects with non-classic apparent mineralocorticoid excess

Nonclassic apparent mineralocorticoid excess (NC-AME) is proposed as a novel clinical condition with a mild phenotypic spectrum that ranges from normotension to severe hypertension. This condition is mainly characterized by a high serum cortisol to cortisone ratio (F/E) and concomitant low cortisone (E), however further metabolic changes in NC-AME have not been studied. A cross-sectional study was performed in a primary-care cohort of 396 Chilean subjects, which were classified in two groups: NC-AME (n = 28) and healthy controls (n = 27). A discovery study based in untargeted metabolomics assay in serum samples from both groups was performed by UPLC-Q-TOF/MS. Global metabolomic variations were assayed by principal component analysis and further compared by orthogonal partial least-squares discriminant analysis (OPLS-DA). NC-AME subjects exhibited higher values of blood pressure, fractional excretion of potassium, and lower plasma renin activity and urinary sodium to potassium ratio. Metabolomic analyses showed 36 differentially regulated metabolites between NC-AME and control subjects. A ROC curve analyses identified eight metabolites with high discriminatory capacity between NC-AME and control subjects. Moreover, gamma-l-glutamyl-l-methionine sulfoxide and 5-sulfoxymethylfurfural, exhibited significant association with cortisone, which are potential biomarkers of NC-AME, however further assays should elucidate its biological role in setup and progression of this phenotype.

A life-threatening case of pseudo-aldosteronism secondary to excessive liquorice ingestion

Background Liquorice is found in many food products, soft drinks, and herbal medicines. Liquorice ingestion is an uncommon cause of apparent mineralocorticoid excess or pseudo-aldosteronism. The mechanism involves the inhibition of 11-beta-hydroxysteroid dehydrogenase type-2 by the active ingredient called glycyrrhizin. This leads to the uninhibited activation of mineralocorticoid receptors by cortisol. Confectionary products that contain liquorice are readily available in many countries around the world. Case presentation We report a case of severe refractory hypokalaemia with hypertensive crisis and acute pulmonary oedema due to excessive liquorice consumption. A 79-year-old female presented to the emergency department following a road traffic accident. She described feeling weak and dizzy while driving before the collision. She attended her general practitioner (GP) several weeks earlier for fatigue and was being managed for hypokalaemia on oral potassium supplements. Investigations revealed hypertension (BP 180/69 mmHg), severe hypokalaemia (K 2.2 mmol/l), normal renal function, normal serum magnesium with metabolic alkalosis. Spot urinary potassium was 22 mmol/l. The patient denied taking medications including over-the-counter or herbal medication that can cause hypokalaemia. Hypokalaemia persisted despite aggressive intravenous (i.v.) and oral potassium replacement. She later developed a hypertensive crisis (BP 239/114 mmHg) with pulmonary oedema. She required admission to the intensive care unit and was managed with intravenous furosemide infusion and isosorbide dinitrate infusion. On further discussion, our patient admitted to struggling with nicotine cravings since quitting smoking two months earlier. She began eating an excessive amount of liquorice sweets to manage her cravings. Suppression of plasma renin and aldosterone supported the diagnosis of apparent mineralocorticoid excess secondary to excessive liquorice consumption. Her symptoms and hypokalaemia resolved after stopping liquorice intake. Conclusions This case highlights the life-threatening and refractory nature of hypokalaemia secondary to excessive liquorice consumption. This case also emphasizes the importance of comprehensive history taking including dietary habits. Increased awareness among the public is required regarding the potential health hazards of excessive liquorice consumption.

Abnormal neonatal sodium handling in skin precedes hypertension in the SAME rat

We discovered high Na+ and water content in the skin of newborn Sprague–Dawley rats, which reduced ~ 2.5-fold by 7 days of age, indicating rapid changes in extracellular volume (ECV). Equivalent changes in ECV post birth were also observed in C57Bl/6 J mice, with a fourfold reduction over 7 days, to approximately adult levels. This established the generality of increased ECV at birth. We investigated early sodium and water handling in neonates from a second rat strain, Fischer, and an Hsd11b2-knockout rat modelling the syndrome of apparent mineralocorticoid excess (SAME). Despite Hsd11b2−/− animals exhibiting lower skin Na+ and water levels than controls at birth, they retained ~ 30% higher Na+ content in their pelts at the expense of K+ thereafter. Hsd11b2−/− neonates exhibited incipient hypokalaemia from 15 days of age and became increasingly polydipsic and polyuric from weaning. As with adults, they excreted a high proportion of ingested Na+ through the kidney, (56.15 ± 8.21% versus control 34.15 ± 8.23%; n = 4; P < 0.0001), suggesting that changes in nephron electrolyte transporters identified in adults, by RNA-seq analysis, occur by 4 weeks of age. Our data reveal that Na+ imbalance in the Hsd11b2−/− neonate leads to excess Na+ storage in skin and incipient hypokalaemia, which, together with increased, glucocorticoid-induced Na+ uptake in the kidney, then contribute to progressive, volume contracted, salt-sensitive hypertension. Skin Na+ plays an important role in the development of SAME but, equally, may play a key physiological role at birth, supporting post-natal growth, as an innate barrier to infection or as a rudimentary kidney.

Concurrent Pseudohyperaldosteronism and Primary Glucocorticoid Deficiency From Posaconazole

Background: Posaconazole can cause pseudohyperaldosteronism via inhibition of 11-beta hydroxylase and 11-beta-hydroxysteroid dehydrogenase type 2 (1). The accumulation of 11-deoxycorticosterone and increased cortisol-to-cortisone ratio in the kidney causes apparent mineralocorticoid excess. The effect of posaconazole on the glucocorticoid axis is less established. Clinical Case: A 56-year-old Hispanic man with a history of chronic septic arthritis of the left ankle from Coccidioides presented with 3 months of malaise, nausea, weight loss of 30 pounds, and recurrent hypokalemia. He was recently switched from long-term fluconazole therapy to posaconazole around the time his symptoms began. His initial labs at our hospital were notable for low potassium (2.9 mmol/L, nl 3.5–5.5 mmol/L) and a random cortisol of 5.8 mcg/dL (nl ≥2.0 mcg/dL). A Cosyntropin stimulation test revealed elevated ACTH (168 pg/mL, nl 7.2–63.3 pg/mL) with minimal rise of cortisol from 4.6 to 7.2 mcg/dL at 1 hour after Cosyntropin administration (nl ≥18 mcg/dL at 1-hour post-Cosyntropin). His plasma renin activity was below detection (&lt;0.6 ng/ml/h, nl 0.6–3.0 ng/mL/h), consistent with renin suppression from apparent mineralocorticoid excess. Hydrocortisone for glucocorticoid deficiency was started. A posaconazole determination indicated elevation (5240 ng/mL, usual therapeutic range ≥1000 ng/mL). His posaconazole was stopped, and he was switched back to fluconazole. Three months later, his symptoms were improved with regain of lost weight. Repeat Cosyntropin stimulation test showed ongoing primary glucocorticoid deficiency (ACTH 123 pg/mL, cortisol 4.1 mcg/dL at 1-hour post-Cosyntropin) but normal levels of plasma renin activity (1.2 ng/mL/h), aldosterone (8.6 ng/dL, nl ≤21 ng/dL), and potassium. Quantiferon TB and 21-hydroxylase antibody tests were negative. Hydrocortisone has been continued with plans to repeat Cosyntropin testing in 3 months to reassess. Conclusion: Pseudohyperaldosteronism with glucocorticoid deficiency requiring hydrocortisone treatment has thus far not been reported with posaconazole. Our case shows that posaconazole may lead to true primary glucocorticoid deficiency that can persist after discontinuation of posaconazole and reversal of pseudohyperaldosteronism. Reference: (1) Sanchez-Niño MD, Ortiz A. Unravelling drug-induced hypertension: Molecular mechanisms of aldosterone-independent mineralocorticoid receptor activation by posaconazole. Clin Kidney J 2018;11(5):688–90.

Limited Efficacy of Mifepristone Due to Poor Tolerance: A Clinical Challenge in Managing Cortisol Excess

A 53-year male with incidental bilateral adrenal masses along with symptoms of proximal muscle weakness, anxiety, and depression. Past medical history of uric acid nephrolithiasis, hypertension, hyperlipidemia, type 2 diabetes mellitus, anxiety, and depression. A right adrenal mass of 2.8cm and a left adrenal mass of 1.5cm both of &lt;10 HU on non-enhancing CT. Hormonal activity workup was ordered which showed cortisol levels of 4.7mcg/dL on 1mg ONDST suggestive of autonomous cortisol excess and workup for primary hyperaldosteronism was negative. On follow up CT adrenal masses remained stable, but the patient underwent the annual hormonal workup for incidentaloma with 1mg ONDST and found with cortisol 4.5mcg/dL, eventually repeated with 2-day LDDST which showed no suppression of cortisol with levels at 4.5 mcg/dL confirming the diagnosis of autonomous cortisol excess. ACTH found to be suppressed at 3.1pg/dL (7.2–63.3 pg/dL) which helped confirm the diagnosis of non-ACTH dependent autonomous cortisol excess. Referred to surgery evaluation due to complications associated with cortisol excess as osteoporosis and uncontrolled hyperglycemia however surgical intervention was deferred until the source of cortisol excess could be identified within the bilateral adrenal masses and it was recommended to continue with medical therapy. As the cortisol excess source cannot be identified by localizing procedures and despite adequate medical therapy and stable adrenal masses on imaging, patient persisted with uncontrolled DM/hypertension and worsening BMD in the spine and hip with surgery not being an option. The patient was started on glucocorticoid receptor antagonist mifepristone in which upon reevaluation weakness and fatigue were noticeable along with hypokalemia of 3.1mmol/L after 2 weeks of therapy that was eventually replaced but 2 weeks later the patient discontinued therapy as he could not tolerate side effects related to adrenal insufficiency associated with mifepristone, such as weakness, fatigue, and dependence of potassium supplementation due to hypokalemia. This effect is physiologically important, because cortisol binds as avidly as aldosterone to the mineralocorticoid receptor, and the plasma cortisol concentration is approximately 100-fold higher than the plasma aldosterone concentration and it can lead to hypokalemia by the mechanism of apparent mineralocorticoid excess. Also, as mifepristone blocks cortisol action, the levels of ACTH and cortisol increase so high that hormonal measurement cannot be used to judge either therapeutic efficacy or adrenal insufficiency, we must go based on signs and symptoms.