Abstract Disclosure: G. Gill: None. S.M. Harman: None. L.A. Robles: None. A 67-year-old female Veteran presented to an emergency room with a one-day history of high blood pressure, chest tightness, and exertional dyspnea. Her blood pressure was 162/90 mm Hg, pulse regular at 71 BPM, and pain level 5/10. She had a history of hypertension, stable on hydrochlorothiazide alone, hyperlipidemia, anxiety, and depression. Physical exam was benign. EKG revealed normal sinus rhythm at 60 BPM, normal axis, a prolonged QT interval of 510 ms, and no ST changes. Lab evaluation showed a low potassium of 2.4 mEq/L, sodium 145 mEq/L. Other lab measurements (CBC, liver function tests and cardiac enzymes) were within laboratory reference ranges. Medications included topiramate for migraine and over-the-counter supplements for constipation, “thyroid health,” and a topical “testosterone booster” prescribed by a non-allopathic practitioner. Her hypokalemia was attributed to hydrochlorothiazide and topiramate and both were discontinued. She was started on nifedipine for blood pressure control and 40 mEq/day of potassium for hypokalemia. Within 2 weeks of discharge, she presented again with elevated blood pressure and a plasma potassium of 4.0 mMol/L. Further history revealed that her constipation supplement consisted of licorice root (glycyrrhiza glabra) extract 900 mg per capsule, of which she took 3 to 4 capsules daily. The patient was advised to discontinue all supplements. Thyroid function tests were within normal limits. Due to a suspicion of hyperaldosteronism, the ED physician requested an abdominal CT scan which showed a 1 cm, -17.5 Hounsfield unit, right adrenal nodule. Also consistent with hyperaldosteronism, plasma renin activity (PRA) was suppressed at 0.07 ng/mL/hr. However, a serum aldosterone level was less than 1 ng/dL. Her 24-hour urinary metanephrines were normal and a 24-hour urine free cortisol was 31.6 mcg/dL. Morning plasma cortisol was 5.1 mcg/dL. A tentative diagnosis of licorice-induced hyperaldosteronism was made and the patient was treated with a taper of spironolactone. After discontinuing spironolactone, blood pressure was 116/70mmHg and serum potassium was 4.5 mMol/L with a PRA of 0.66 ng/mL/hr and serum aldosterone of <5.0 ng/dL. The syndrome of factitious hyperaldosteronism due to licorice consumption has been well described. The mechanism, inhibition of renal (type 2) 11-beta-hydroxysteroid dehydrogenase by glycyrrhizic acid, allowing cortisol to exercise its considerable mineralocorticoid action, is well understood. Most prior reports have been in patients habitually consuming licorice candy, usually imported, since conventional licorice sold in the U.S. is artificially flavored. Our report illustrates the importance of obtaining a history of use of over-the-counter supplements and assessing their ingredients and the fact that presence of an adrenal nodule and a low PRA does not always indicate endogenous hyperaldosteronism. Presentation: 6/2/2024