评估新一代大功率电子烟作为吸入性支气管扩张剂的热气溶胶发生装置。

Assessment of new-generation high-power electronic nicotine delivery system as thermal aerosol generation device for inhaled bronchodilators.

机构信息

Ecole Nationale Supérieure des Mines de Saint-Etienne, CIS-EMSE, SAINBIOSE, F-42023 Saint Etienne, France; INSERM, U1059, F-42023 Saint Etienne, France; Université de Lyon, F-69000 Lyon, France.

Ecole Nationale Supérieure des Mines de Saint-Etienne, CIS-EMSE, SAINBIOSE, F-42023 Saint Etienne, France; INSERM, U1059, F-42023 Saint Etienne, France; Université de Lyon, F-69000 Lyon, France; CHU Saint-Etienne, Department of Nuclear Medicine, F-42055 Saint-Etienne, France.

出版信息

Int J Pharm. 2017 Feb 25;518(1-2):264-269. doi: 10.1016/j.ijpharm.2017.01.009. Epub 2017 Jan 4.

DOI:10.1016/j.ijpharm.2017.01.009

PMID:28062365

Abstract

PURPOSE

A need remains for alternative devices for aerosol drug delivery that are low cost, convenient and easy to use for the patient, but also capable of producing small-sized aerosol particles. This study investigated the potential of recent high power electronic nicotine delivery systems (ENDS) as aerosol generation devices for inhaled bronchodilators.

METHODS

The particle size distribution was measured using a cascade impactor. The delivery of terbutaline sulfate, a current bronchodilator used for asthma or COPD therapy by inhalation, was studied. This drug was quantified by liquid chromatography coupled with tandem mass spectrometry.

RESULTS

The particle size distribution in terms of mass frequency (in two ways, gravimetrically and quantitatively through drug assay on each stage) and the terbutaline sulfate concentration in the aerosol were elucidated. The mass median aerodynamic diameter (MMAD) and the drug delivery rose when the power level increased, to reach 5.6±0.4μg/puff with a MMAD of 0.78±0.03μm at 25W.

CONCLUSION

New generation high-power ENDS are very efficient to generate carrier-droplets in the submicron range containing drug molecules with a constant drug concentration whatever the size-fractions. ENDS appear to be highly patient-adaptive.

摘要

目的

需要寻找替代的药物气溶胶输送装置，这些装置成本低、方便且易于患者使用，但也能够产生小粒径的气溶胶颗粒。本研究探讨了新型大功率电子尼古丁输送系统（ENDS）作为吸入性支气管扩张剂气溶胶发生装置的潜力。

方法

使用级联冲击器测量粒径分布。研究了硫酸特布他林的输送情况，硫酸特布他林是一种目前用于哮喘或 COPD 治疗的吸入性支气管扩张剂。通过液相色谱-串联质谱法对该药物进行定量分析。

结果

阐明了以质量频率（通过在每个阶段进行称重和药物定量分析两种方式）和气溶胶中硫酸特布他林浓度表示的粒径分布。当功率水平增加时，质量中值空气动力学直径（MMAD）和药物输送增加，在 25W 时达到 5.6±0.4μg/吸，MMAD 为 0.78±0.03μm。

结论

新一代大功率 ENDS 非常有效地在亚微米范围内生成含有药物分子的载液滴，无论粒径如何，药物浓度均保持恒定。ENDS 似乎非常适合患者使用。

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评估新一代大功率电子烟作为吸入性支气管扩张剂的热气溶胶发生装置。

Assessment of new-generation high-power electronic nicotine delivery system as thermal aerosol generation device for inhaled bronchodilators.

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METHODS

RESULTS

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