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RESEARCH PRODUCT

The relative stability of xylazine hydrochloride polymorphous forms

Juris P. KreišmanisAndris ActiņšAgris BerzinsKristīne Krūkle

subject

XylazineVapor PressureVapor pressureStereochemistryChemistryTransition temperatureVapour pressure of waterTemperatureAnalytical chemistryWaterPharmaceutical ScienceGeneral Medicinelaw.inventionSolventDrug StabilityX-Ray DiffractionPolymorphism (materials science)lawX-ray crystallographySolventsAnhydrousTransition TemperatureCrystallizationCrystallizationAdrenergic alpha-Agonists

description

All four known xylazine hydrochloride polymorphous forms were obtained and their relative stabilities were compared directly at three different temperatures. At higher temperatures, it is possible to determine the relative stability of all forms directly by measuring the changes in the composition of the mixtures of two polymorphous forms using powder x-ray diffraction methods. At lower temperatures, a solvent was added to the mixture and the changes in composition were determined. Polymorph transition temperatures were determined directly. To predict the transition temperature which was not found using the direct method, the polymorph melting data and determined transition temperatures were used. A phase stability diagram was constructed from the acquired data. The stability of all anhydrous polymorphous forms was compared in the presence of water vapor pressure that was higher than the equilibrium pressure.

yearjournalcountryeditionlanguage
2009-07-30Pharmaceutical Development and Technology
https://doi.org/10.3109/10837450903127368