Thermodynamics Research Today is a free monthly online journal that collates and summarizes the latest research about Thermodynamics, including details on enthalpy, entropy, energy transitions. | ||||||||
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Role of thermodynamic, molecular, and kinetic factors in crystallization from the amorphous state.Bhugra C, Pikal MJ Department of Pharmaceutical Sciences, School of Pharmacy, University of Connecticut, 69 North Eagleville Road, Storrs, Connecticut 06269, USA. Though there is an advantage in using the higher solubility amorphous state in cases where low solubility limits absorption, physical instability poses a significant barrier limiting its use in solid oral dosage forms. Unlike chemical instability, where useful accelerated stability testing protocols are common, no methodology has been established to predict physical instability. Therefore, an understanding of the factors affecting crystallization from the amorphous state is not only important from a scientific perspective but also has practical applications. Crystallization from the amorphous matrix has been linked to the molecular mobility in the amorphous matrix and recent research has focused on developing the link between these two fundamental properties of glass forming materials. Although researchers have been actively working in this area for some time, there is no current review describing the present state of understanding of crystallization from the amorphous state. The purpose of this review therefore is to examine the roles of different factors such as molecular mobility, thermodynamic factors, and the implication of different processing condition, in crystallization from the amorphous state. We believe an increased understanding of the relative contributions of molecular mobility and processing conditions are vital to increased usage of the amorphous state in solid oral dosage forms. Published 4 March 2008 in J Pharm Sci, 97(4): 1329-49.
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