Abstract
Tanimilast is an inhaled phosphodiesterase-4 inhibitor currently in phase 3 clinical development for treating chronic obstructive pulmonary disease (COPD) and asthma. This trial aimed to characterize the pharmacokinetics, mass balance, and metabolite profiling of tanimilast. Eight healthy male volunteers received a single dose of non-radiolabeled tanimilast via powder inhaler (NEXThaler® (3200μg)), followed by a concomitant intravenous (IV) infusion of a microtracer ([14C]-tanimilast: 18.5μg and 500nCi). Plasma, whole blood, urine, and feces samples were collected up to 240 hours post-dose to quantify non-radiolabeled tanimilast, [14C]-tanimilast, and total-[14C]. The inhaled absolute bioavailability of tanimilast was found to be approximately 50%. Following IV administration of [14C]-tanimilast, plasma clearance was 22 L/h, the steady-state volume of distribution was 201 L, and the half-life was shorter compared to inhaled administration (14 vs. 39 hours, respectively), suggesting that plasma elimination is limited by the absorption rate from the lungs. 79% (71% in feces; 8% in urine) of the IV dose was recovered in excreta as total-[14C]. [14C]-tanimilast was the major radioactive compound in plasma, while no recovery was observed in urine and only 0.3% was recovered in feces, indicating predominant elimination through metabolic route. Importantly, as far as no metabolites accounting for more than 10% of the circulating drug-related exposure in plasma or the administered dose in excreta were detected, no further qualification is required according to regulatory guidelines. This study design successfully characterized the absorption, distribution, and elimination of tanimilast, providing key pharmacokinetic parameters to support its clinical development and regulatory application.
Significance Statement This trial investigates PK and ADME profile of tanimilast, an inhaled PDE4 inhibitor for COPD and asthma. Eight male volunteers received a dose of non-radiolabeled tanimilast via NEXThaler® and a microtracer IV dose. Results show pivotal PK results for the characterization of tanimilast, excretion route and quantification of significant metabolites, facilitating streamlined clinical development and regulatory approval.