The solid-state and morphological characteristics of particles generated from solution-based metered dose inhalers: influence of ethanol concentration and intrinsic drug properties

Bing Zhu, Daniela Traini, David A. Lewis, Paul Young

Research output: Contribution to journalArticlepeer-review

14 Citations (Scopus)

Abstract

The aerosol performance, physical properties and formation process of two corticosteroids (beclomethasone dipropionate and fluticasone propionate) and caffeine (active pharmaceutical ingredients: APIs) from ethanol-based pressurized metered dose inhaler solution formulations, containing various ethanol fractions, were evaluated using cascade impaction, thermal analysis and scanning electron microscopy. In general, the final aerosol particle size distribution (post USP induction port) was unaffected by ethanol concentration (mass median aerodynamic diameter and geometric standard deviation values for each formulation were independent of ethanol concentration (%, w/w) in the initial formulation). However, ethanol concentration directly affected the percentage of particles that passed the USP induction, resulting in a significant decrease in fine particle fraction, across all formulations, as ethanol was increased. Thus it can be concluded that particle size is governed by initial droplet diameter and API concentration, while performance is governed by drying time. The physico-chemical properties and morphology of the dried API particles, collected from cascade impactor stages, showed that the solid state was related to the glass transition temperature (Tg) and, to some extent, the saturated hydrofluoroalkane propellant (HFA)/ethanol solubility of the APIs. The low Tg API caffeine, with high HFA solubility resulted in crystalline particles, while the high Tg corticosteroids were amorphous. Furthermore, the final structure of the particles was dependent on the ethanol concentration and drying kinetics after initial droplet formation. This study has shown that the solid-state physico-chemical properties and morphology of particles is intrinsically linked to the API properties and drying kinetics of the propellant/co-solvent. These variations in aerosol efficiency, particle morphology and solid-state characteristics may have direct effects on drug efficacy and bioavailability after deposition in the lung.
Original languageEnglish
Pages (from-to)345-355
Number of pages11
JournalColloids and Surfaces A: Physicochemical and Engineering Aspects
Volume443
DOIs
Publication statusPublished - 2014
Externally publishedYes

Keywords

  • Solution-based pMDI
  • Corticosteroid
  • Caffeine
  • Particle formation
  • Aerosol performance
  • Morphology

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