Eplerenone reduces risk of death in patients with heart failure,[7] particularly in patients with recent myocardial infarction (heart attack).[8]
Hypertension
Eplerenone lowers blood pressure in patients with primary hypertension.[9] Eplerenone also reduces arterial stiffness and vascular endothelial dysfunction.[10]
For persons with resistant hypertension, eplerenone is safe and effective for reducing blood pressure,[11] particularly in persons with resistant hypertension due to
hyperaldosteronism.[12][13]
Central serous chorioretinopathy
Eplerenone is often prescribed for people with central serous chorioretinopathy (CSC). However, the most recent and largest
randomized controlled trial showed that eplerenone has no significant effect on chronic CSC that has been untreated for four months.[14][15]
Adverse effects
Common
adverse drug reactions (ADRs) associated with the use of eplerenone include:
hyperkalaemia,
hypotension, dizziness, and reduced renal clearance.[16] Eplerenone may have a lower incidence than spironolactone of sexual side effects such as
feminization,
gynecomastia,
impotence, low sex drive and reduction of size of male genitalia.[17] This is because other antimineralocorticoids have structural elements of the
progesterone molecule, causing progestogenic and antiandrogenic outcomes.[4] When considering taking these medicines, it is important to note the variations in their ability to offset the nongenomic effects of aldosterone.[4]
Currently, there is not enough evidence available from the randomized controlled trials on side effects of eplerenone to do a benefit versus risk assessment in people with primary hypertension.[18]
Interactions
Eplerenone is primarily metabolized by the
cytochrome P450 enzyme
CYP3A4. Thus the potential exists for adverse drug interactions with other drugs that induce or inhibit CYP3A4. Specifically, the concomitant use of the CYP3A4 potent inhibitors
ketoconazole and
itraconazole is contraindicated. Other CYP3A4 inhibitors including
erythromycin,
saquinavir, and
verapamil should be used with caution. Other drugs that increase
potassium concentrations may increase the risk of hyperkalemia associated with eplerenone therapy, including salt substitutes,[19] potassium supplements and other
potassium-sparing diuretics.
Pharmacology
Eplerenone is an
antimineralocorticoid, or an
antagonist of the
mineralocorticoid receptor (MR).[20] Eplerenone is also known chemically as 9,11α-epoxy-7α-methoxycarbonyl-3-oxo-17α-pregn-4-ene-21,17-carbolactone and "was derived from spironolactone by the introduction of a 9α,11α-epoxy bridge and by substitution of the 17α-thoacetyl group of spironolactone with a carbomethoxy group."[21] The drug controls high blood pressure by blocking the binding of
aldosterone to the mineralocorticoid receptor (MR) in
epithelial tissues, such as the kidney.[4] Blocking the action of
aldosterone decreases blood volume and lowers blood pressure.[22] It has 10- to 20-fold lower
affinity for the MR relative to
spironolactone,[20] and is less potent in vivo as an antimineralocorticoid.[4] However, in contrast to spironolactone, eplerenone has little affinity for the
androgen,
progesterone, and
glucocorticoid receptors.[20][4] It also has more consistently observed non-genomic antimineralocorticoid effects relative to spironolactone (see
membrane mineralocorticoid receptor).[4] Eplerenone differs from spironolactone in its extensive metabolism, with a short half-life and inactive metabolites.[4]
Eplerenone seems to be about 50 to 75% as potent as spironolactone as an antimineralocorticoid.[23] Hence, 25 mg/day spironolactone may be equivalent to approximately 50 mg/day eplerenone.[24]
Regulatory and Patent History
Eplerenone was patented in 1983 and approved for medical use in the United States in 2002.[25][22] Eplerenone is currently approved for sale in Canada, the US, EU, Netherlands and Japan.[22] Eplerenone costs an estimated $2.93 per day when treating
congestive heart failure and $5.86 per day when treating
hypertension.[17]
^
abSica DA (January 2005). "Pharmacokinetics and pharmacodynamics of mineralocorticoid blocking agents and their effects on potassium homeostasis". Heart Failure Reviews. 10 (1): 23–9.
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^Frankenstein L, Seide S, Täger T, Jensen K, Fröhlich H, Clark AL, Seiz M, Katus HA, Nee P, Uhlmann L, Naci H, Atar D (March 2020). "Relative Efficacy of Spironolactone, Eplerenone, and cAnRenone in patients with Chronic Heart failure (RESEARCH): a systematic review and network meta-analysis of randomized controlled trials". Heart Fail Rev. 25 (2): 161–171.
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^De Luca L (October 2020). "Established and Emerging Pharmacological Therapies for Post-Myocardial Infarction Patients with Heart Failure: a Review of the Evidence". Cardiovasc Drugs Ther. 34 (5): 723–735.
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^Morimoto S, Ichihara A (August 2020). "Management of primary aldosteronism and mineralocorticoid receptor-associated hypertension". Hypertens Res. 43 (8): 744–753.
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^Spence JD (May 2017). "Rational Medical Therapy Is the Key to Effective Cardiovascular Disease Prevention". The Canadian Journal of Cardiology. 33 (5): 626–634.
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