Abstract
Revefenacin inhalation solution is an anticholinergic indicated for the maintenance treatment of patients with chronic obstructive pulmonary disease. Mass balance, pharmacokinetics, and metabolism of revefenacin were evaluated after intravenous and oral administration of [14C]-revefenacin in healthy subjects. Pharmacological activity of the major revefenacin metabolite was also assessed. Adult males (n = 9) received 20 μg intravenously of approximately 1 μCi [14C]-revefenacin and/or a single 200-μg oral solution of approximately 10 μCi [14C]-revefenacin. Mean recovery of radioactive material was 81.4% after intravenous administration (54.4% in feces; 27.1% in urine) and 92.7% after oral dosing (88.0% in feces, 4.7% in urine). Mean absolute bioavailability of oral revefenacin was low (2.8%). Intact revefenacin accounted for approximately 52.1% and 13.1% of the total radioactivity in plasma after intravenous and oral administration, respectively. Two main circulating metabolites were observed in plasma. After an intravenous dose, a hydrolysis product, THRX-195518 (M2) was observed that circulated in plasma at 14.3% of total radioactivity. After an oral dose, both THRX-195518 and THRX-697795 (M10, N-dealkylation and reduction of the parent compound) were observed at 12.5% of total circulating radioactivity. THRX-195518 was the major metabolite excreted in feces and comprised 18.8% and 9.4% of the administered intravenous and oral dose, respectively. The major metabolic pathway for revefenacin was hydrolysis to THRX-195518. In vitro pharmacological evaluation of THRX-195518 indicated that it had a 10-fold lower binding affinity for the M3 receptor relative to revefenacin. Receptor occupancy analysis suggested that THRX-195518 has minimal contribution to systemic pharmacology relative to revefenacin after inhaled administration. SIGNIFICANCE STATEMENT: The major metabolic pathway for revefenacin was hydrolysis to the metabolite THRX-195518 (M2), and both revefenacin and THRX-195518 underwent hepatic-biliary and fecal elimination after oral or intravenous administration with negligible renal excretion. Pharmacological evaluation of THRX-195518 indicated that it had a 10-fold lower binding affinity for the M3 muscarinic receptor relative to revefenacin and that THRX-195518 has minimal contribution to systemic pharmacology after inhaled administration.
Highlights
Demographic and baseline characteristics were similar between treatments [mean age 31.8 years, range 22.0–46.0 years; n = 6 (66.7%) White, n = 3 (33.3%) Black or African American; mean body weight 80.0 kg 6 15.9 S.D.; mean body mass index 25.3 6 4.08 (S.D.)]
A mean (S.D.) of 81.4 (6.0)% of drugrelated radioactive material was recovered after intravenous administration of revefenacin, with 54.4 (3.8)% excreted in feces and 27.1
Estimation of the fraction absorbed from radiolabeled intravenous and oral dosing can be accomplished by comparison of the amount of total radioactivity excreted in urine after oral and intravenous administration and suggests that the fraction absorbed of revefenacin is less than 20%
Summary
Revefenacin (YUPELRI) is a novel once-daily, lung-selective, muscarinic antagonist developed and approved as a nebulized inhalation. (South San Francisco, CA) and Mylan Inc. All authors had access to the data included in the manuscript. The data sets generated during the current study are not publicly available but can be requested from the corresponding author.
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