Search results
Results From The WOW.Com Content Network
[11] [185] [186] Other known but more minor metabolites of spironolactone include 7α-thiospironolactone (7α-TS), which is an important intermediate to the major metabolites of spironolactone, [17] as well as the 7α-methyl ethyl ester of spironolactone and the 6β-hydroxy-7α-methyl ethyl ester of spironolactone.
Pharmacokinetics of 100 mg/day spironolactone and its metabolites Compound C max Tooltip Peak concentrations (day 1) C max Tooltip Peak concentrations (day 15) AUC Tooltip Area-under-the-curve concentrations (day 15) t 1/2 Tooltip Elimination half-life; Spironolactone: 72 ng/mL (173 nmol/L) 80 ng/mL (192 nmol/L) 231 ng•hour/mL (555 nmol ...
Spironolactone has been identified as an inhibitor of NRG1‐ERBB4 signaling. [142] Spironolactone has been found to act as a potent inhibitor of the pannexin 1 channel, and this action appears to be involved in its antihypertensive effects independently of MR antagonism. [143] Spironolactone has been found to block hERG channels. [144]
Spironolactone is a prodrug with a short terminal half-life of 1.4 hours. [5] [6] [7] The active metabolites of spironolactone have extended terminal half-lives of 13.8 hours for 7α-TMS, 15.0 hours for 6β-OH-7α-TMS, and 16.5 hours for canrenone, and accordingly, these metabolites are responsible for the therapeutic effects of the drug. [5] [6
Spironolactone is a prodrug with a short terminal half-life of 1.4 hours. [5] [6] [7] The active metabolites of spironolactone have extended terminal half-lives of 13.8 hours for 7α-TMS, 15.0 hours for 6β-OH-7α-TMS, and 16.5 hours for canrenone, and accordingly, these metabolites are responsible for the therapeutic effects of the drug. [5] [6]
Spironolactone is a prodrug with a short terminal half-life of 1.4 hours. [5] [6] [7] The active metabolites of spironolactone have extended terminal half-lives of 13.8 hours for 7α-TMS, 15.0 hours for 6β-OH-7α-TMS, and 16.5 hours for canrenone, and accordingly, these metabolites are responsible for the therapeutic effects of the drug. [5] [6]
Spirolactones are a class of functional group in organic chemistry featuring a cyclic ester attached spiro to another ring system. The name is also used to refer to a class of synthetic steroids, called steroid-17α-spirolactones, 17α-spirolactosteroids, or simply 17α-spirolactones, which feature their spirolactone group at the C17α position.
The trial was stopped early because the beneficial effect of spironolactone on all-cause death exceeded the prespecified discontinuation requirements. Spironolactone reduced the risk of death by 30% compared to placebo. Additionally, there was a 35% reduction in the risk of hospitalization for worsening heart failure in the spironolactone group.