The ‘stage-by-stage’ deposition of drugs from commercial single-active and combination dry powder inhaler formulations

This study investigates drug deposition within inertial impactors on a stage-by-stage basis as a tool for assessment inhaler bioequivalence. Single active and combination formulations were compared and differences found.. [Display omitted] Inhalation of salmeterol xinafoate (SX) and fluticasone propionate (FP) from a combination product is reported to produce superior clinical outcomes in comparison to the concurrent administration of ‘similar’ doses via separate single-active inhalers. For bioequivalence determination across different products, emphasis is currently placed on the assessment of drug deposition within inertial impactors on a ‘stage-by-stage’ basis as stipulated in a recent European Medicines Agency guidance. The aim of this study was to compare the stage-by-stage deposition of drugs aerosolised from the single-active Accuhaler® products Serevent® (SX) and Flixotide® (FP) with the SX–FP combination product Seretide® Accuhaler® in vitro. Drug deposition on a stage-by-stage basis was assessed using the next generation impactor (NGI). Significant differences in drug deposition profiles were obtained following aerosolisation from the single-active versus combination products. The concurrent administration of the two single-active products: Serevent® and Flixotide® Accuhaler® may not be bioequivalent to inhalation of the combination product Seretide® Accuhaler®. The observed differences may have resulted from different characteristics of the active pharmaceutical ingredient (APIs) and the carrier alpha-lactose monohydrate between the single-active and combination inhalers and/or a change in the drug-carrier inter-particulate interaction as a consequence of the presence of a second active.