OBJECTIVE: S-equol is produced from the biotransformation of the soy isoflavone daidzein. Clinical trials have shown that being an equol producer reduces menopausal symptoms. As part of a drug development program, S-equol was synthesized in pure form. In this report, we describe its safety, tolerability, and pharmacokinetics. METHODS: Two randomized, double-blind, placebo-controlled clinical trials were carried out in healthy volunteers: a single-rising dose (10-320 mg) study in 61 participants and a 14-day multirising dose (10-160 mg, BID) study in 40 participants. RESULTS: S-equol was well tolerated by all participants; there were no significant drug-related adverse events. S-equol was rapidly absorbed, with time of peak plasma concentration (T max) ranging from 1.5 to 3 hours after a single dose. Less than 1% of total S-equol in plasma appeared as the unconjugated form, the majority being conjugated forms of S-equol. Plasma area under the curve (AUC) and maximum concentration (C max) increased proportionally with dose. At the 20-mg single dose, a crossover study showed that food intake significantly decreased C max but not AUC for total S-equol; C max and AUC of unconjugated S-equol were not significantly affected. CONCLUSIONS: These studies in healthy participants establish the first report on the plasma and urine levels of unconjugated S-equol after oral dosing. The rapid absorption and pharmacokinetic parameters show that S-equol exposure is linear with dose. There were no significant drug-related adverse events even at the highest dose tested of 320 mg; these data provide the information for dose selection for efficacy studies in postmenopausal women.
RCT Entities:
OBJECTIVE:S-equol is produced from the biotransformation of the soy isoflavonedaidzein. Clinical trials have shown that being an equol producer reduces menopausal symptoms. As part of a drug development program, S-equol was synthesized in pure form. In this report, we describe its safety, tolerability, and pharmacokinetics. METHODS: Two randomized, double-blind, placebo-controlled clinical trials were carried out in healthy volunteers: a single-rising dose (10-320 mg) study in 61 participants and a 14-day multirising dose (10-160 mg, BID) study in 40 participants. RESULTS:S-equol was well tolerated by all participants; there were no significant drug-related adverse events. S-equol was rapidly absorbed, with time of peak plasma concentration (T max) ranging from 1.5 to 3 hours after a single dose. Less than 1% of total S-equol in plasma appeared as the unconjugated form, the majority being conjugated forms of S-equol. Plasma area under the curve (AUC) and maximum concentration (C max) increased proportionally with dose. At the 20-mg single dose, a crossover study showed that food intake significantly decreased C max but not AUC for total S-equol; C max and AUC of unconjugated S-equol were not significantly affected. CONCLUSIONS: These studies in healthy participants establish the first report on the plasma and urine levels of unconjugated S-equol after oral dosing. The rapid absorption and pharmacokinetic parameters show that S-equol exposure is linear with dose. There were no significant drug-related adverse events even at the highest dose tested of 320 mg; these data provide the information for dose selection for efficacy studies in postmenopausal women.
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