Background: When inhaling medication, it is essential that drug particles are delivered to all sites of lung inflammation, including the peripheral airways. The aim of this study was to assess the lung deposition and lung distribution of beclomethasone dipropionate (BDP)=formoterol (100=6 mg), both dissolved in hydrofluoroalkane (HFA) and delivered by pressurized metered dose inhaler (pMDI) in healthy subjects, asthmatic, and chronic obstructive pulmonary disease (COPD) patients, to investigate how the in vitro characteristics of the formulation translate into the in vivo performance in diseases with different airway obstruction.
These pharmacokinetic data show that with a BDP dose from Foster that is 2.5 times less than a BDP dose from Becotide Forte, pulmonary absorption is 86% higher; however, systemic exposure is 35% lower, resulting in less cortisol suppression for a similar BDP dosage.
In the drive to replace chlorofluorinated hydrocarbons (CFCs) by alternative more environmentally friendly propellants in pressurized metered dose inhalers (pMDIs), Chiesi has developed new inhalers using Modulite technology. The aim was to obtain CFC-free pMDIs which are equivalent, in terms of safety and efficacy, to the previous CFC devices at the same dose. When beclometasone dipropionate (BDP) and budesonide Modulite formulations were compared to the equivalent CFC products there was no significant difference in morning serum cortisol or urinary cortisol excretion, at the maximum recommended daily dose (2000 micrograms or 1600 micrograms respectively). Single dose pharmacokinetic studies in both healthy volunteers and asthmatic patients compared systemic exposure (B17MP levels) for BDP-CFC with BDP Modulite and extrafine BDP-HFA (QVAR). B17MP levels for BDP-CFC and BDP Modulite were comparable, but substantially less than that seen with extrafine BDP-HFA. After 6 weeks of treatment in asthmatic patients, B17MP AUC after inhalation of BDP (1000 micrograms twice-daily) from BDP Modulite was comparable with that obtained after BDP-CFC (Becloforte). Plasma profile of BDP and B17MP were similar after inhalation from BDP Modulite with standard actuator or delivered via a spacer, suggesting that pulmonary delivery of BDP to the lung is similar with both actuators.
In this study, the influence of lung function on lung deposition of a radioactively labeled Formotoerol HFA MDI (Forair) was investigated. Eighteen subjects were measured: 6 healthy subjects (FEV(1) = 107% pred), 6 patients with Asthma (FEV(1) = 72% pred), and 6 patients with COPD (FEV(1) = 40% pred). The lung deposition of the radioactive-labeled drug was measured with a gamma camera. The lung deposition relative to the emitted dose was 31% for healthy subjects, 34% for asthmatics, and 35% for COPD patients. These data suggest a comparable lung deposition in the different populations. There was no significant correlation between lung function (FEV(1)) and lung deposition. The extrathoracic deposition was around 50%. The finding were that lung deposition of the inhaled Formoterol did not depend on lung function and the relative high values of lung deposition can be explained by the small particle size (0.8 microm) of the HFA-Formoterol-Formulation and the slow inhalation (30 L/min flow) used in this study. It can be concluded, that with this modern HFA drug formulation, the deposition is high, even in obstructed lungs.
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