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Sensitivity of Pharmacokinetics to Differences in the Particle Size Distribution for Formulations of Locally Acting Mometasone Furoate Suspension-Based Nasal Sprays.

Elham AminiSimon M BergerUta SchillingYuanyuan JiaoMong-Jen ChenSagar BachhavSandra M BaumsteinYufei TangMohammed Al-HumiariCarmen E Leon AstudilloStefanie DrescherTeresa IleyJagdeep ShurRobert PriceCynthia CarrascoDenise S ContiRenishkumar DelvadiaOluwamurewa OguntimeinKimberly WitzmannMohammad AbsarMarkham C LukeSusan BocSneha DhapareBhawana SalujaElizabeth BielskiBryan NewmanJürgen B BulittaGuenther Hochhaus
Published in: Molecular pharmaceutics (2023)
To assess bioequivalence of locally acting suspension-based nasal sprays, the U.S. FDA currently recommends a weight-of-evidence approach. In addition to in vitro and human pharmacokinetic (PK) studies, this includes a comparative clinical endpoint study to ensure equivalent bioavailability of the active pharmaceutical ingredient (API) at the site of action. The present study aimed to assess, within an in vitro/in vivo correlation paradigm, whether PK studies and dissolution kinetics are sensitive to differences in drug particle size for a locally acting suspension-based nasal spray product. Two investigational suspension-based nasal formulations of mometasone furoate (MF-I and MF-II; delivered dose: 180 μg) differed in API particle size and were compared in a single-center, double-blind, single-dose, randomized, two-way crossover PK study in 44 healthy subjects with oral charcoal block. Morphology-directed Raman spectroscopy yielded volume median diameters of 3.17 μm for MF-I and 5.50 μm for MF-II, and dissolution studies showed that MF-II had a slower dissolution profile than MF-I. The formulation with larger API particles (MF-II) showed a 45% smaller C max and 45% smaller AUC 0-inf compared to those of MF-I. Systemic bioavailability of MF-I (2.20%) and MF-II (1.18%) correlated well with the dissolution kinetics, with the faster dissolving formulation yielding the higher bioavailability. This agreement between pharmacokinetics and dissolution kinetics cross-validated both methods and supported their use in assessing potential differences in slowly dissolving suspension-based nasal spray products.
Keyphrases
  • double blind
  • placebo controlled
  • clinical trial
  • chronic rhinosinusitis
  • risk assessment
  • randomized controlled trial
  • phase ii
  • emergency department
  • body mass index
  • study protocol