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Improving powder flow properties of a cohesive lactose monohydrate powder by intensive mechanical dry coating

Version 2 2024-06-04, 15:48
Version 1 2020-02-04, 15:48
journal contribution
posted on 2024-06-04, 15:48 authored by Q Zhou, B Armstrong, I Larson, PJ Stewart, David MortonDavid Morton
The objective of this study was to improve the cohesive lactose powder flowability. A cohesive lactose monohydrate powder was processed in either a tumbling blender or an intensive mechanical processor with either magnesium stearate or fumed silica. No substantial changes in particle size were detected by laser diffraction following either treatment. The untreated lactose sample exhibited very poor powder flow. Only limited improvements in powder flowability were indicated after the tumbling blending, intensive mechanical processing with the fumed silica or without additives. However, the intensive mechanical processing of the lactose sample with magnesium stearate demonstrated exceptionally large increases in both poured and tapped density as well as notable improvements in all powder flowability indicators examined. Our findings support the use of intensive mechanical processing technique as an effective method to coat cohesive pharmaceutical powders with selected additives, modify the surface nature of the particles, reduce the interparticle cohesive forces and hence improve powder flowability. The subtle differences in powder flow behaviour of lactose samples between the untreated and tumbling blended powders with magnesium stearate were only detected by the powder rheometer using its dynamic mode, indicating its potential advantages over traditional powder flow characterisation approaches.

History

Journal

Journal of Pharmaceutical Sciences

Volume

99

Pagination

969-981

Location

New York, N.Y.

ISSN

0022-3549

eISSN

1520-6017

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2009, Wiley-Liss & American Pharmacists Association

Issue

2

Publisher

Elsevier