A Comparative Study of the Ionic Cocrystals NaX (α-<scp>d</scp>-Glucose)<sub>2</sub> (X = Cl, Br, I)

Linberg, Kevin; Ali, Nazim; Etter, Martin; Michalchuk, Adam A. L.; Rademann, Klaus; Emmerling, Franziska

doi:10.1021/acs.cgd.8b01929

Cited by 11 publications

(7 citation statements)

References 27 publications

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“…Differently, single-step LAG of PZQ in water results in the hemihydrate when the reactant is PZQ Form B, possibly related to the structural similarity between the two forms, as better addressed below. The present findings add to the recent studies involving real-time in situ grinding experiments, which show that mechanochemical reactions may present different mechanistic steps and intermediates [49][50][51].…”

Section: Discussionsupporting

confidence: 77%

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

et al. 2020

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Praziquantel (PZQ) is the first-line drug used against schistosomiasis, one of the most common parasitic diseases in the world. A series of crystalline structures including two new polymorphs of the pure drug and a series of cocrystals of PZQ have been discovered and deposited in the Cambridge Structural Database (CSD). This work adds to the list of multicomponent forms of PZQ a relevant example of a racemic hemihydrate (PZQ-HH), obtainable from commercial PZQ (polymorphic Form A) through mechanochemistry. Noteworthy, the formation of the new hemihydrate strongly depends on the initial polymorphic form of PZQ and on the experimental conditions used. The new PZQ-HH has been fully characterized by means of HPLC, Differential Scanning Calorimetry (DSC), Thermogravimetric Analysis (TGA), Hot-Stage Microscopy (SEM), Powder X-Ray Diffraction (PXRD), Scanning Electron Microscopy (SEM), FT-IR, polarimetry, solid-state NMR (SS-NMR), solubility and intrinsic dissolution rate (IDR), and in vitro tests on Schistosoma mansoni adults. The crystal structure was solved from the powder X-ray diffraction pattern and validated by periodic-DFT calculations. The new bioactive hemihydrate was physically stable for three months and showed peculiar biopharmaceutical features including enhanced solubility and a double intrinsic dissolution rate in water in comparison to the commercially available PZQ Form A.

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Section: Discussionsupporting

confidence: 77%

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

et al. 2020

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“…For all the other ICCs, therefore, structures had to be determined from X-ray powder diffraction data, which revealed, inter alia, that most ICCs discussed here are anhydrous. The formation of anhydrous compounds of alkali salts is per se rather unusual, since the majority of ICCs of alkali halides prepared this far ,, tends to form hydrates, while anhydrous forms can be only obtained, in some cases, by subsequent dehydration processes, and are, in general, highly hygroscopic. We attribute this difference to the peculiar structure of CA, i.e., to its small size and highly symmetrical shape, a combination that affords optimal packings with spherical ions, as will be apparent in the following.…”

Section: Resultsmentioning

confidence: 99%

“…Therefore, to elucidate the crystal structure of the mechanically prepared cocrystals, one can either attempt recrystallization from solution or structure determination directly from powder data. In the former case, however, as mentioned above, the difference in solubility of the components in a given solvent must be taken into account, as dissolution of the cocrystal often implies separation of the components with very different solubility profiles. − This is especially true in the case of ionic cocrystals (ICCs), composed of an organic moiety and of inorganic salts or complexes, where the difference in solubility in water or organic solvents is usually very large. In all these cases, the best option to determine the nature of the ICC is the structure determination directly from X-ray powder diffraction (XRPD) data.…”

Section: Introductionmentioning

confidence: 99%

Mechanochemical Preparation and Solid-State Characterization of 1:1 and 2:1 Ionic Cocrystals of Cyanuric Acid with Alkali Halides

Shemchuk

Grepioni

Braga

2020

Crystal Growth & Design

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Mechanochemical mixing of cyanuric acid and alkali halides, which show extreme differences in solubility, is a viable, solvent-free method to quantitatively prepare ionic cocrystals (ICCs) of cyanuric acid (CA) with halide salts of alkali metals. In this paper, we report the preparation and structural characterization of a series of new compounds, namely, CA2·MCl (M= Rb, Cs), CA·MBr (M= Na, K, Rb, Cs), and CA·RbI, and of the two hydrates CA·NaBr·2H2O and CA·KI·H2O. Crystal structures were determined directly from X-ray powder diffraction data in all cases with the exception of CA·KI·H2O, for which single crystals were obtained. The effect of cation size on the stoichiometry as well as on the architecture of the ICCs has been discussed.

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“…Cocrystals in general, and ionic cocrystals (ICCs) in particular, have become attractive research topics in the pharmaceutical industry, since they can provide an alternative route to new pharmaceutical formulations compared to conventional salts. − A virtually infinite choice of molecular and/or ionic building blocks makes the number of possible combinations between active pharmaceutical ingredients (APIs) and ancillary coformers or other APIs limitless. ICCs belong to a class of multicomponent crystalline solids composed of neutral organic molecules and salts in a defined stoichiometric ratio. − Pharmaceutical ICCs are of particular interest, since they can modulate the physicochemical and biological properties of the APIs (e.g., bioavailability, solubility, intrinsic dissolution rate, morphology, stability toward humidity, and thermostability) in an impressive manner. − The formulation of drugs as cocrystals can be especially important with APIs that lack ionizable moieties, which therefore cannot be formulated and used as conventional salts. Enantiopure and racemic oxiracetam (see Scheme ) investigated in this work belong to such APIs.…”

Section: Introductionmentioning

confidence: 99%

Chiral Resolution of RS-Oxiracetam upon Cocrystallization with Pharmaceutically Acceptable Inorganic Salts

Shemchuk

Song

Tumanov

et al. 2020

Crystal Growth & Design

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Ionic cocrystals (ICCs) of racemic RS-oxiracetam and of its active S-enantiomer of pharmaceutical interest with the pharmaceutically acceptable salts calcium and magnesium chloride were synthesized and structurally characterized. The cocrystallization of RS-oxiracetam with MgCl2 resulted in chiral resolution with formation of an S-OXI·MgCl2·5H2O/R-OXI·MgCl2·5H2O conglomerate. Ternary phase diagrams of RS-oxiracetam/inorganic salt/solvent were constructed to determine the overall compositions for which the ICCs are the only stable phases in suspension. In addition, single crystals of S-oxiracetam were grown, and its structure was determined.

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A Comparative Study of the Ionic Cocrystals NaX (α-d-Glucose)₂ (X = Cl, Br, I)

Cited by 11 publications

References 27 publications

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

Mechanochemical Preparation and Solid-State Characterization of 1:1 and 2:1 Ionic Cocrystals of Cyanuric Acid with Alkali Halides

Chiral Resolution of RS-Oxiracetam upon Cocrystallization with Pharmaceutically Acceptable Inorganic Salts

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A Comparative Study of the Ionic Cocrystals NaX (α-d-Glucose)2 (X = Cl, Br, I)

Cited by 11 publications

References 27 publications

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

Mechanochemical Formation of Racemic Praziquantel Hemihydrate with Improved Biopharmaceutical Properties

Mechanochemical Preparation and Solid-State Characterization of 1:1 and 2:1 Ionic Cocrystals of Cyanuric Acid with Alkali Halides

Chiral Resolution of RS-Oxiracetam upon Cocrystallization with Pharmaceutically Acceptable Inorganic Salts

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A Comparative Study of the Ionic Cocrystals NaX (α-d-Glucose)₂ (X = Cl, Br, I)