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API ionic liquids: probing the effect of counterion structure on physical form and lipid solubility

Leigh Ford, Erin Tay, Tri‐Hung Nguyen, Hywel D. Williams, Hassan Benameur, Peter J. Scammells, Christopher J. H. Porter

2020RSC Advances28 citationsDOIOpen Access PDF

Abstract

) in addition to LBF solubility, utilizing cinnarizine and lumefantrine as model weakly basic APIs. Three series of structurally diverse alkyl sulfate counterions were chosen to probe this relationship. Pairing cinnarizine and lumefantrine with a majority of these alkyl sulfate counterions resulted in a reduction in melting temperature and enhanced solubility in model medium chain and long chain LBFs. The chain length of the alkyl sulfate plays a crucial role in performance, and consistently branched alkyl sulfate counterions perform better than straight chain alkyl sulfate counterions, as predicted. Most interestingly, trends in counterion performance were found to be consistent across two APIs with disparate chemical structures. The findings from this study will facilitate the design of counterions which enhance solubility of ionisable drugs and unlock the potential to develop compounds previously restrained by poor solubility.

Topics & Concepts

CounterionSolubilityAlkylChemistryMelting pointIonic liquidSulfateOrganic chemistryChemical engineeringInorganic chemistryIonEngineeringCatalysisIonic liquids properties and applicationsCrystallization and Solubility StudiesAnalytical Chemistry and Chromatography
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