Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
2484957 | Journal of Pharmaceutical Sciences | 2013 | 11 Pages |
Abstract
The purpose of this study is to provide a mechanistic understanding concerning the effect of tip-speed on a granulation at various binder rheological states; the in situ rheological state of a binder was controlled by exposing a granulation blend to 96% relative humidity. This approach allowed us to investigate the impact of tip-speed on granule consolidation coupled with the in situ binder state, which was not possible using a conventional granulation approach. Experimentally, the rheological state of binders was characterized using a rheometer. Granule size and granule porosity were measured by Qicpic instrument and Mercury Intrusion Porosimetry, respectively. For the granulations containing binders at viscous state (PVP K17 and PVP K29/32), the granule size increased significantly with mixing time and the growth rate increased with tip-speed until 5.8Â m/s; when binders were at viscoelastic state, tip-speed had no impact on granulation. Furthermore, the granule porosity was higher for granulation with binders at viscoelastic state (HPC and PVP K90), whereas it was lower for granulation with binders at viscous state. In addition, the impeller tip-speed had minimal impact on the porosity of the final granules. Finally, Ennis' model was used for interpreting results, providing mechanistic insights on granulation.
Keywords
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Authors
Jinjiang Li, Li Tao, David Buckley, Jing Tao, Julia Gao, Mario Hubert,