RT Journal Article SR Electronic T1 The effect of inhalation duration on lung deposition with a pressurized metered-dose inhaler (pMDI) JF European Respiratory Journal JO Eur Respir J FD European Respiratory Society SP P911 VO 44 IS Suppl 58 A1 Cedric Van Holsbeke A1 Jonathan Marshall A1 Jan De Backer A1 Wim Vos YR 2014 UL http://erj.ersjournals.com/content/44/Suppl_58/P911.abstract AB RationaleAlthough the guidance for using a pMDI is to inhale 'slow and deeply', many patients inhale fast over a short duration. The ERS/ISAM Task Force suggested 'slowly' equates to inhaling over 4-5 seconds (s) for adults (Laube B.L. et al. ERJ 2011; 37(6):1308–417), a much clearer instruction. This study therefore examined the influence of inhalation time on total lung deposition (TLD) using Functional Respiratory Imaging (FRI).MethodsThree-dimensional airway models of 6 asthma patients (mean FEV1 83%), treated with an ICS/LABA combination, were included. The lung deposition characteristics of an HFA-based pMDI (MMAD ∼3.0μm; fine particle fraction (FPF) ∼40%) were assessed using FRI. Simulations were performed on 3 different inhalation profiles matched for the same inspiratory volume (3L) with durations of 1s, 3s and 5s and actuation at start of inhalation.ResultsFor the 1s, 3s and 5s profiles, the TLD values were 22.81±3.71%, 36.13±2.51% and 41.61±3.11% of nominal dose respectively, and were predicted using a concave down quadratic model (R2=0.87, p<0.001). The central to peripheral deposition ratios were 1.58, 0.81 and 0.57 respectively.ConclusionsA 5 s inhalation led to highest TLD with greatest peripheral deposition. Increased deposition with longer times mainly reflected increased peripheral deposition, central deposition was less affected by flow rate. These data support ERS/ISAM guidance for inhaling over 4-5 sec to optimize deposition, although similar TLD were achieved with 3s. These data also suggest that high FPF pMDIs can achieve reasonable deposition even with short, fast inhalations.This study was funded by MundiPharma International.