Packing and flow performance of binary adhesive mixtures for inhalation of different drug loads and their relationships to aerosolisation

Packing and flow performance of binary adhesive mixtures for inhalation of different drug loads and their relationships to aerosolisation

The aim of this study was twofold. First, to examine the mechanical properties (packing and flow) of a series of adhesive mixtures, consisting of two different lactose carriers and varying concentrations of budesonide, using a range of test methods. Second, to investigate if any of the test methods...

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Bibliographic Details
Main Authors: Anna Simonsson, Tobias Bramer, Alex Wimbush, Göran Alderborn
Format: Article
Language:English
Published: Elsevier 2025-12-01
Series:International Journal of Pharmaceutics: X
Subjects:
Binary mixtures
Inhalation
Mechanical properties
Dispersion properties
Blend architecture
Flowability-dispersibility relationships
Online Access:http://www.sciencedirect.com/science/article/pii/S259015672500043X
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Summary:The aim of this study was twofold. First, to examine the mechanical properties (packing and flow) of a series of adhesive mixtures, consisting of two different lactose carriers and varying concentrations of budesonide, using a range of test methods. Second, to investigate if any of the test methods correlate with the dispersibility of the mixtures, i.e. the fine particle fraction and mass median aerodynamic diameter. The mechanical properties assessed included packing, shearing, permeability and compressibility. Dispersion data were generated using an impactor operated at two pressure drops (0.5 and 4 kPa). To explore correlations between the mixture properties, Principal Component Analysis and Pearson correlation were used as statistical tools.The different test methods yielded different property-drug load relationships, which can be classified into two groups: First, packing density and shearing properties, and second, permeability and compressibility. The methods in the first group produced markedly fluctuating property-drug load relationships, characterised by two distinct waves. This type of property-drug load relationship was similar to that observed in the dispersion experiments, and significant correlations were found between shearing properties and dispersibility. Thus, any correlations between mechanical and dispersion properties depend on the choice of the test method used. The underlying cause of this co-variation is the parallel effect of both the blend architecture and the structure of the adhesion layer on mechanical and dispersion properties.
ISSN:2590-1567

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