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AlphaLogD determination: An optimized Reversed-Phase Liquid Chromatography method to measure lipophilicity on neutral and basic small and Beyond-Rule-of-Five compounds

Daniel Katz, Kate Fike, Justin Longenberger, Steve Placko, Laurence Philippe-Venec, Andrew Chervenak

2022Journal of Chromatography A11 citationsDOIOpen Access PDF

Abstract

Lipophilicity can be measured with different methods, such as Shake-Flask or liquid chromatography. HPLC presents the advantage of overcoming solubility issues and therefore extending the range of lipophilicity to high values. A specific HPLC method, called ELogD, had been developed 20 years ago on a C16-amide stationary phase, enhancing hydrophobic and hydrogen bond interactions to mimic octanol-water partition. The emergence of novel stationary phases and the need for a less complex mobile phase have led to the development of a new HPLC assay called alphaLogD, applicable to neutral and basic compounds at pH 7.4, that combines superficially porous particles with a high number of equilibriums between solutes and stationary phase, leading to a lower number of isocratic methods to determine the logk’w at a higher throughput. Statistical studies have been run to successfully evaluate the alphaLogD method compared to the Shake-Flask method and to allow this lipophilicity measurement into the so-called Beyond-Rule-of-5-molecules space.

Topics & Concepts

LipophilicityChemistryChromatographyHigh-performance liquid chromatographyReversed-phase chromatographyPartition coefficientPhase (matter)SolubilityOrganic chemistryAnalytical Chemistry and ChromatographyComputational Drug Discovery MethodsMetabolomics and Mass Spectrometry Studies
AlphaLogD determination: An optimized Reversed-Phase Liquid Chromatography method to measure lipophilicity on neutral and basic small and Beyond-Rule-of-Five compounds | Litcius