Volume 89, Issue 2 pp. 250-259
Research Article

Spherical crystal agglomeration of ibuprofen by the solvent-change technique in presence of methacrylic polymers

Kyriakos Kachrimanis

Kyriakos Kachrimanis

Laboratory of Pharmaceutical Technology, School of Pharmacy, University of Thessaloniki, Thessaloniki 54006, Greece

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Ioannis Nikolakakis

Ioannis Nikolakakis

Laboratory of Pharmaceutical Technology, School of Pharmacy, University of Thessaloniki, Thessaloniki 54006, Greece

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Stavros Malamataris

Corresponding Author

Stavros Malamataris

Laboratory of Pharmaceutical Technology, School of Pharmacy, University of Thessaloniki, Thessaloniki 54006, Greece

Laboratory of Pharmaceutical Technology, School of Pharmacy, University of Thessaloniki, Thessaloniki 54006, GreeceSearch for more papers by this author

Abstract

The effects of Eudragit® nature on the formation and spherical agglomeration of ibuprofen microcrystals have been examined when solvent change (ethanol-water) technique is applied. Four methacrylic polymers (Eudragit® S100, L100, RS, and RL), with different solubility and solubilizing ability, were used. The extrapolated points of maximum temperature deviation rate in crystallization liquid that reflect the maximum crystallization rate and the corresponding water addition were determined, as well as crystal yielding and incorporation of drug and polymer in the agglomerates. The physicomechanical properties of the agglomerates, such as size, sphericity, surface roughness and porosity, as well as flow and packing or compression behavior during tableting, were evaluated for different drug/polymer ratios. It was found that crystal yield is greatly reduced in the presence of water-insoluble polymers and that formation of the microcrystals and incorporation of drug and polymer are affected by the polymer nature. Crystal formation changes are attributed to alterations in the metastable zone, whereas the changes in drug and polymer incorporation and crystal yield are caused by changes in the polymers' solubility and micellization. The size of agglomerates depends on the polymer nature and its interactions with the ibuprofen microcrystals formed. Sphericity, surface roughness, and intraparticle porosity of agglomerates increase, in general, with the presence of polymer owing to changes in habit and growth rate of the microcrystals and to their coating before binding into spherical agglomerates. The particle density or intraparticle porosity and size changes determine flow or packing behavior and densification of agglomerates at low compression. The incorporation and brittleness of the polymer determine the deformation under higher compression pressure, expressed as yield pressure, Py. © 2000 Wiley-Liss, Inc. and the American Pharmaceutical Association J Pharm Sci 89: 250–259, 2000

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