Solvent-mediated phase

H. Qu, M. Louhi-Kultanen, J. Rantanen and J. Kallas, Solvent-mediated phase transformation kinetics of an anhy-drate/hydrate system, Cryst. Growth Des., 6, 2053-2060 (2006). 

Davey, R.J. Cardew, P.T. Mcewan, D. Sadler, D.E. Rate controlling processes in solvent-mediated phase-transformations. J. Cryst. Growth 1986, 79 (1-3), 648-653. 

Murphy, D. The Solvent-Mediated Phase Transformation of Carbamazepine and the Influence of Surfactants on the 153. Nucleation Mechanism and Crystal Morphology. Ph.D. thesis. The University of Michigan Ann Arbor, MI, 1997. Rodriguez-Homedo, N. Murphy, D. Surfactant-facihtated crystallization of dihydrate carlramazepine during dissolution of anhydrous polymorph. J. Pharm. Sci. 2004, 95 (2),... 

It is important to note that the solubility of the drug in these organic sol-vent/water mixtures must be high enough to facilitate phase transformation. The factors that determine the kinetics of solvent mediated phase transformations are discussed in more detail in subsequent sections of this chapter. 

The kinetics for a solvent mediated phase transformation will be governed by the kinetics of dissolution, nucleation, and crystal growth. These rates will depend directly on the solvent and any step may be rate limiting. As discussed in earlier sections of this chapter, the solvent influences the nucleation rate and crystal growth rate via two factors 1) solute solubility and 2) specific solvent-solute interactions. The dissolution rate will also be solvent dependent as pharmaceutical materials generally exhibit a wide range of dissolution rates in different solvents. 

Cardew PT and Davey ly. The Kinetics of Solvent-Mediated Phase Transformations. Proc R Soc Lond 1985 A398 415-428. 

Davey ly, Cardew PT, Mcewan D, and Sadler DE. Rate Controlling Processes in Solvent-Mediated Phase Transformations./Cryst Growth 1986 79 648—653. 

One way of assessing whether the solid is a metastable form of the compound is to slurry the compound in a range of solvents. In this way, a solvent-mediated phase transformation maybe detected using the usual techniques (Davey et al. 1986). 

Davey, R. J., R T. Cardew, D. McEwan, and D. E. Sadler. 1986. Rate processes in solvent-mediated phase transformations./. Cryst. Growth 79 648-653. 

Clearly, one can consider a wet granulation to be equivalent to a suspension of the drug entity in a mixture of solvent and excipients. Since the usual solvent is water, one can encounter a variety of interconversions between anhydrates and hydrates, or between hydrates and hydrates, which are mediated by the presence of the solvent. It is equally clear that one should not expect to be able to wet-granulate the metastable phase of a particular compound if that metastable phase is capable of transforming into a more stable form. A discussion of solvent-mediated phase transformations has been given in an earlier chapter and need not be repeated here. 

This type of behaviour is not confined to polymorphs but may extend to pseudopolymorphic forms such as hydrates and solvates. A recent case of solvent-mediated phase transformation involved polymorphic and pseudopolymorphic forms of thiazole carboxylic acid [55], where the transformation is again sensitive to the composition of the mixed solvent. Three forms of the compound are known, an anhydrous form, a 0.5 hydrate, and a 1.5 hydrate. In 50-80% solutions (% = vol.% MeOH-H20), transformation of the 1.5 hydrate to the 0.5 hydrate was observed while transformation to the anhydrous form occurred in 85-100% solutions. No transformation occurred in 0-30% solutions. Detailed study of a solvent-mediated polymorphic transition has also been carried out for the antiulcerative agent cimetidine [56] for which seven polymorphic forms are known. An important feature of this study was the systematic use of seed crystals to induce crystallization at different supersaturation ratios. 

Cardew, P.T. and Davey, R.J. (1985) The kinetics of solvent-mediated phase transformations. Proceedings of the Royal Society, A398, 415-428. 

Davey, R.J. and Richards, J. (1985) A solvent mediated phase transformation in an aqueous suspension of an azo disperse dye. Journal of Crystal Growth, 71, 597-601. 

Concomitant polymorphs crystallize simultaneously from the same solvent or melt and in the same crystallizing flask under identical crystal growth conditions. However, the possibility that concomitant polymorphs grow in stages by means of a solvent-mediated phase transformation cannot easily be ruled out." ... 

Solid-state and solvent-mediated phase transition/transformation... 

Among the methods for polymorph screening of cocrystals, solvent-mediated phase transformation is an effective method to search for co-crystal polymorphs, as shown... 

Brittain HG, Bogdanowich SJ, Bugay DE, Devincentis J, Lewen G, Newman AW (1991) Physictil characterization of pharmaceutical solids. Pharm Res 8 963—973 Brouwers J, Brewster ME, Augustijns P (2009) Supersaturating diug delivery systems the answer to solubility-limited oral bioavaUability J Pharm Sci 98 2549-2572 Cardew PT, Davey RJ (1985) The kinetics of solvent-mediated phase transformations. Proc Royal Soc Lond A 398 415-428... 

In case solvent mixtures are used, the solvent composition changes over the process. In case different solvates are traversed, it may be difficult to obtain the desired particle properties. In some cases, the crop can undergo a solvent-mediated phase transformation, which could affect the particle integrity. 

The high-pressure film method may be regarded as a solvent-mediated phase transition in which hBN dissolves in a solvent and cBN crystals precipitate from it. Because hBN is metastable and cBN is stable at high pressures, hBN should dissolve more in a high-pressure solvent than cBN (Fig. 39). Therefore, B and N atoms supersaturate for cBN as a result, deposition of cBN crystals occurs. 

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