Double Salts and Racemate in Mefloquine–Ibuprofen and Mefloquine–Ketoprofen Systems. A Structural and Thermochemical Analysis
Juliana B. Martins, João V. Segatto, Juan C. Tenorio, Paulo S. Carvalho

TL;DR
This study explores how combining mefloquine with ibuprofen or ketoprofen forms double salts and racemates, revealing structural and solubility patterns that help understand chiral drug crystallization.
Contribution
The study demonstrates structural mimicry between double salts and racemates in chiral drug combinations, offering new insights into predictable enantiomeric resolution.
Findings
Double salts and racemates formed with mefloquine show structural similarities to their racemic forms.
Ketoprofen systems produced isostructural double salts and racemates, while ibuprofen systems had different architectures.
Solubility and stability varied, with the ketoprofen racemate and ibuprofen double salt being the most soluble.
Abstract
The formation of salts remains a highly sought‐after yet unpredictable strategy for resolving chiral drugs. Using a drug–drug approach, we have investigated the crystallization behavior of Mefloquine (Mf), a racemic antimalarial drug, in combination with enantiopure (S)‐ibuprofen and (S)‐ketoprofen, as well as their racemic forms. Double salts and racemates have been obtained and characterized by single‐crystal and powder X‐ray diffraction, Hirshfeld surface analysis, thermal analysis (DSC and TGA), and solubility measurements. Structural analysis reveals that the formation of double salts often follows a pattern similar to the packing and supramolecular motifs found in the corresponding racemates. For the ketoprofen systems, the double salt and racemate have been found to be isostructural and isomorphic, whereas the ibuprofen systems display different architectures despite similar unit…
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Taxonomy
TopicsCrystallization and Solubility Studies · Crystallography and molecular interactions · X-ray Diffraction in Crystallography
