Screening for Polymorphism, Cyclodextrin Complexation, and Co-Crystallization of the Non-Steroidal Anti-Inflammatory Drug Fenbufen: Isolation and Characterization of a Co-Crystal and an Ionic Co-Crystal of the API with a Common Coformer
Hannah M. Frösler, Neo Refiloe Mancapa, Laura Catenacci, Milena Sorrenti, Maria Cristina Bonferoni, Mino R. Caira

TL;DR
This study explores new crystalline forms of fenbufen to improve its water solubility, finding a co-crystal and an ionic co-crystal that could enhance drug delivery.
Contribution
The novel contribution is the isolation and characterization of a co-crystal and an ionic co-crystal of fenbufen with isonicotinamide.
Findings
No new polymorphic forms of fenbufen were identified.
A new solid inclusion complex of fenbufen with γ-cyclodextrin was isolated.
A 1:1 co-crystal and an ionic co-crystal of fenbufen with isonicotinamide were formed, significantly enhancing solubility.
Abstract
Background/Objectives: Increasing the solid-state landscape of an active pharmaceutical ingredient (API) by generating new crystalline forms (e.g., polymorphs, cyclodextrin (CD) inclusion complexes, co-crystals, and salts) can yield products with significantly enhanced biopharmaceutical properties (especially increased water solubility), thereby improving API delivery and extending its lifetime. The aim of this study was the isolation of new solid forms of the poorly water-soluble non-steroidal anti-inflammatory drug fenbufen (FBF), for which relatively few solid phases have been reported to date. Further motivation for the study is the recent finding that it has potential for repurposing to treat acute pancreatitis. Methods: Interventions for generating new solid forms of FBF included (a) polymorph screening with a variety of solvent media, (b) attempts to form solid inclusion…
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Taxonomy
TopicsDrug Solubulity and Delivery Systems · Crystallization and Solubility Studies · Pharmacological Effects of Natural Compounds
