D. Grooff scite author profile

This study investigated the solid-state physical stabilities of azithromycin dihydrate (AZM-DH), thermally prepared anhydrate and hemihydrate modifications. Programmed thermal treatment of AZM-DH in DSC yielded the formation of anhydrate amorphs (I, II), crystalline AZM anhydrate and hemihydrate phases. The formation of the anhydrate amorphs, I and II, respectively, involved different transformation pathways of solid-liquid-solid (melting and supercooling) and solid-solid (378 K for 24 h.). Both amorph phases exhibit hygroscopic behaviour, producing non-stoichiometric hydrates, with extent of moisture absorption increasing with increased storage humidity (0-96% RH/313 K). TG analysis after controlled storage (4 days at 96% RH/313 K) detected absorbed waters of hydration up to 5.9 and 5.3% for amorphs I and II, respectively. The crystal anhydrate and hemihydrate phases were hygroscopic and readily converted to the stoichiometric dihydrate form, which was compositionally stable in RH ranges from 11 to 96% at 313 K. Solubility studies, performed in distilled water at 310 K, showed an at least 1.5 fold solubility improvement for both amorph forms relative to crystalline AZM-DH, but with some evidence of solvent-mediated phase transformation after 20 min. Structural characterization by single-crystal XRD concluded that thermally stimulated amorphization required energy to disrupt intermolecular hydrogen bond interactions by bridging water molecules in addition to hydrogen bond interactions between neighbouring AZM molecules in unit cell.

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Preparation and Transformation of True Nifedipine Polymorphs: Investigated with Differential Scanning Calorimetry and X-Ray Diffraction Pattern Fitting Methods

Grooff

Liebenberg

Villiers

2011

Journal of Pharmaceutical Sciences

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Photostability of Crystalline Versus Amorphous Nifedipine and Nimodipine

Grooff

Francis

Villiers

et al. 2013

Journal of Pharmaceutical Sciences

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A comparison of tetraethylthiuram and tetramethylthiuram disulfide vulcanization. II. Reactions in rubber

Gradwell

Grooff

2001

J of Applied Polymer Sci

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ABSTRACT:The reactions of tetraethylthiuram disulfide (TETD) with polyisoprene were investigated under vulcanization conditions. Samples of polyisoprene compounded with various combinations of TETD, sulfur, and ZnO were heated in a differential scanning calorimeter to various degrees of vulcanization. The crosslink density of the compounds was determined by swelling, and the extractable residual curatives and reaction products were analyzed with high-performance liquid chromatography. TETD caused crosslinking to occur in the absence of added sulfur, as did tetramethylthiuram disulfide (TMTD), both sulfur donors. In the presence of sulfur, the formation of TETD polysulfides occurred immediately before the crosslinking reaction started. The TETD polysulfides were the initial crosslinking agents. The ready reaction between TETD and zinc oxide to form zinc diethyldithiocarbamic acid resulted in considerably higher crosslink densities. This greater reactivity between TETD and zinc oxide, compared with that between TMTD and zinc oxide, did not lead to any noticeable differences in the vulcanizate.

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D. Grooff

Thermal methods for evaluating polymorphic transitions in nifedipine

Water and the relationship to the crystal structure stability of azithromycin

Preparation and Transformation of True Nifedipine Polymorphs: Investigated with Differential Scanning Calorimetry and X-Ray Diffraction Pattern Fitting Methods

Photostability of Crystalline Versus Amorphous Nifedipine and Nimodipine

A comparison of tetraethylthiuram and tetramethylthiuram disulfide vulcanization. II. Reactions in rubber

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