Background: This study evaluated the lung deposition and the distribution pattern in the airways of a fixed combination of beclometasone dipropionate (BDP) and formoterol fumarate (FF) (100/6 μg) delivered as an extrafine dry powder formulation (mass median aerodynamic diameter, MMAD (μm) BDP = 1.5; FF = 1.4) through the NEXThaler® device in healthy subjects, asthmatics, and patients with COPD.Methods: Healthy subjects (n = 10), asthmatic patients (n = 9; 30%≤FEV1 < 80%), and COPD patients (n = 9; FEV1/FVC ≤70%, 30%≤FEV1 < 50%) completed this open-label, single administration (inhalation of four actuations) parallel group study. After inhalation of 99mTc-radiolabeled BDP/FF combination (radiolabeled BDP + unlabeled FF), the drug deposition was assessed using a gamma-scintigraphy technique. Patients' lung function was assessed.Results: No significant difference in drug deposition was observed between the three study groups. Mean lung deposition, extrathoracic deposition, and amount exhaled ranged, respectively, between 54.9% and 56.2%, between 41.8% and 43.2%, and between 1.6% and 3.3% of BDP emitted dose (71.7 ± 2.5 μg) for the three study groups. The central to peripheral ratio (reflecting the lung distribution pattern) ranged between 1.23 and 2.02 for the three study groups, indicating a distribution of the drug throughout the airways, including periphery. The study treatment produced a forced expiratory volume in one second (FEV1) increase over time, reaching a maximum improvement generally within 1–4 hours.Conclusions: The fixed extrafine dry powder combination BDP/FF (100/6 μg) administered through the DPI NEXThaler® achieved similar intrapulmonary deposition in healthy subjects, in asthmatic patients, and COPD patients (approximately 55% of emitted dose) irrespective of the underlying lung disease with a negligible amount of exhaled particles. The study showed high reliability of the device, reproducible dosing, and distribution throughout the lungs. The results supported the concept of efficient delivery of the combination to the target pulmonary regions, thanks to the extrafine formulation. FEV1 profile confirmed a relevant pharmacodynamic effect of the product.
In order to characterize the efficacy of dry powder inhalers, in vitro measurements are much easier to perform than human deposition studies, especially in early stages of drug development. In this study, lung deposition and delivered dose of radiolabeled Foradil P inhaled with the Aerolizer were measured in 10 healthy subjects. These data were then compared with data derived from an in vitro assessment of the device output and particle size distribution combined with mathematical modeling of lung deposition (modified ICRP-model). Delivered dose and lung deposition increased slightly but statistically significant with the inhalation peak flow in both the in vivo data and the in vitro data. The delivered dose ranged from 60% to 80% and lung deposition, relative to the fill weight, from 13% to 28%. Differences between the in vitro and in vivo data were slight and statistically not significant. This study indicates that in vitro assessment of device performance, in combination with lung deposition delivery data, are in good agreement with deposition data measured in healthy subjects. Since there was only a slight flow rate dependency of lung deposition without clinical relevance, it may additionally be concluded that the Aerolizer is a robust, easy to handle inhalation device with stable and reproducible drug delivery characteristics.
Improving reproducibility and replicability in preclinical research is a widely discussed and pertinent topic, especially regarding ethical responsibility in animal research. INFRAFRONTIER, the European Research Infrastructure for the generation, phenotyping, archiving, and distribution of model mammalian genomes, is addressing this issue by developing internal quality principles for its different service areas, that provides a quality framework for its operational activities. This article introduces the INFRAFRONTIER Quality Principles in Systemic Phenotyping of genetically altered mouse models. A total of 11 key principles are included, ranging from general requirements for compliance with guidelines on animal testing, to the need for well-trained personnel and more specific standards such as the exchange of reference lines. Recently established requirements such as the provision of FAIR (Findable, Accessible, Interoperable, Reusable) data are also addressed. For each quality principle, we have outlined the specific context, requirements, further recommendations, and key references.
The intrapulmonary deposition (mean ± SD) in CF subjects was 47.0% ± 6.6% and 46.7% ± 10.3% in TIM and TBM, respectively, and in healthy subjects, 50.0% ± 6.7% and 54.8% ± 7.0% in TIM and TBM, respectively. TIM resulted in an approximately 40% lower treatment time (HS 6.4 min vs. 10.3 min, CF 5.3 min vs. 10.7 min) and less extra-thoracic deposition compared to TBM, and showed a higher residue of drug in the nebulizer, compared to TBM. In both groups, inhalation of a single dose of 77 mg of A1-PI was efficient, safe, and well tolerated using TIM and TBM.
The nominal dose (200microg) of the Budiair((R)) 200microg inhaler is reduced to 40microg delivered dose or less by using Babyhaler((R)) and AeroChamber((R)) Plus spacers taking five breaths. With a single breath the delivered dose can be reduced further to a minimum of 10microg using the Babyhaler((R)). Clinical studies are warranted in the future for decisions on 'clinical efficacy', safety, and exact dose adjustment.
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