• Journal Article

Dry Powder Aerosols Generated by Standardized Entrainment Tubes from Alternative Sugar Blends: 3. Trehalose Dihydrate and D-Mannitol Carriers

Citation

Mansour, H. M., Xu, Z., & Hickey, A. (2010). Dry Powder Aerosols Generated by Standardized Entrainment Tubes from Alternative Sugar Blends: 3. Trehalose Dihydrate and D-Mannitol Carriers. Journal of Pharmaceutical Sciences, 99(8), 3430-3441. DOI: 10.1002/jps.22101

Abstract

The relationship between physicochemical properties of drug/carrier blends and aerosol drug powder delivery was evaluated Four pulmonary drugs each representing the major pulmonary therapeutic classes and with a different pharmacological action were employed Specifically, the four pulmonary drugs were albuterol sulfate, ipratropium bromide monohydrate, disodium cromoglycate, and fluticasone propionate The two carrier sugars, each representing a different sugar class, were D-mannitol and trehalose dihydrate Dry powder aerosols (2%, w/w, drug in carrier) delivered using standardized entrainment tubes (SETs) were characterized by twin-stage liquid impinger. The fine particle fraction (FPF) was correlated with SET shear stress, tau(s) and the maximum fine particle fraction (FPF,;,) was correlated with a deaggregation constant, k(d). by using a powder aerosol deaggregation equation (PADE) by nonlinear and linear regression analyses applied to pharmaceutical inhalation aerosol systems in the solid state. For the four pulmonary drugs representing the major pulmonary therapeutic classes and two chemically distinct pulmonary sugar carriers (non-lactose types) aerosolized with SETs having well-defined shear stress values, excellent correlation and predictive relationships were demonstrated for the novel and rigorous application of PADE for dry powder inhalation aerosol dispersion within a well-defined shear stress range, in the context of pulmonary drug/sugar carrier physicochemical and interfacial properties. (C) 2010 Wiley-Liss, Inc and the American Pharmacists Association J Pharm Sci 99 3430-3441. 2010