Influence of Particle Size and Patient Dosing Technique on Lung Deposition of HFA-Beclomethasone from a Metered Dose Inhaler
Publication: Journal of Aerosol Medicine
Volume 18, Issue Number 4
Abstract
The objective of this study was to determine the lung delivery of HFA-134a-beclomethasone dipropionate (HFA-BDP) from a breath-activated inhaler (QVAR™ Autohaler™) compared with proper and improper press and breathe (QVAR™ P&B) metered dose inhaler (MDI) technique. The hypothesis was that that the smaller particles of BDP from HFA-BDP would stay suspended longer in the inspiratory air of patients and thus reduce the deleterious effects of inhaler discoordination. The study was an open label, four period, cross-over design. Asthmatic patients (n = 7) with a history of asthma symptoms, an FEV-1 of >70% of predicted normal, and a history of reversibility to a beta-agonist of ≥12% were utilized. BDP was radiolabeled with technetium-99m and delivered from the QVAR Autohaler or QVAR P&B device in patients trained to reproducibly utilize coordinated and discoordinated P&B MDI technique. Patients using Autohaler MDI exhibited 60% lung deposition of BDP. Patients using coordinated technique with the P&B MDI exhibited 59% lung deposition. Patients trained to consistently actuate the P&B MDI before inhaling exhibited 37% lung deposition. Patients trained to consistently actuate the P&B MDI late in the inspiration (i.e., 1.5 sec into a 3-sec inspiration) exhibited 50% lung deposition. In conclusion, the breath-activated Autohaler automatically provided optimal BDP lung deposition of 60%. Patients with good P&B MDI technique also received optimal lung deposition of 59%. The degree of lung deposition was decreased as patients demonstrated poor inhaler technique. However patients with poor technique still received a large lung dose of BDP (i.e., ≥37%) compared with lung deposition values of 4–7% for CFC-BDP MDIs previously published and confirmed in this study.
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Copyright 2005, Mary Ann Liebert, Inc.
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Published online: 27 December 2005
Published in print: Winter 2005
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