Fluidization of fine lactose for dry powder inhalation: A comparison of assisting methods

Fuweng Zhang*, Damiano La Zara, Feilong Sun, Michael J. Quayle, Gunilla Petersson, Staffan Folestad, J. Ruud van Ommen

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

2 Citations (Scopus)
51 Downloads (Pure)

Abstract

Fluidization of cohesive pharmaceutical powders is difficult to achieve and typically requires the introduction of external forces. This study investigates the fluidization of the fine inhalation grade of lactose powders (size range from 0.1-20 μm) that are specifically developed for dry powder inhalation (DPI) applications. The fluidization behaviour of fine lactose powders was evaluated under six conditions: without fluidization aids, with only vertical vibration (VFA), with only a downward-pointing micro-jet (MFA), with both vibration and pre-mixing with coarse particles (VCFA), with both vibration and micro-jet (VMFA), and with the combined assistance of vibration, micro-jet, and addition of coarse particles (VMCFA). The enhancement of fluidization due to the use of different assistance methods is reflected by the increase of bed expansion and the decrease in both the minimum fluidization velocity and agglomerate formation. However, applying micro-jet results in considerable powder losses due to the high fraction of fine particles stuck to the wall. Combining any two assisting methods leads to better fluidization than using a single approach. In particular, the combination of vibration and micro-jet shows the best performance in improving fluidization. Further addition of coarse particles does not play a significant influence on promoting fluidization. Finally, the analysis of the forces acting on the lactose agglomerates shows the enhancement of separation forces by introducing the fluidization assistance, which leads to a decrease in agglomerate size.

Original languageEnglish
Pages (from-to)1696-1705
Number of pages10
JournalCanadian Journal of Chemical Engineering
Volume99
Issue number8
DOIs
Publication statusPublished - 2021

Keywords

  • fine lactose powder
  • fluidization
  • micro-jet
  • premixing
  • vibration

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