Dry Powder and Budesonide Inhalation Suspension Deposition Rates in Asthmatic Airway-Obstruction Regions.

Journal of drug delivery Pub Date : 2019-11-18 eCollection Date: 2019-01-01 DOI:10.1155/2019/3921426
Norihide Murayama, Kei Asai, Kikuno Murayama, Satoru Doi, Makoto Kameda
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引用次数: 9

Abstract

Steroid inhalation is the standard bronchial asthma therapy and it includes powdered metered doses, dry powder, and nebulizer suspension. However, particle sizes vary widely. The research goal was to demonstrate that different budesonide administration forms and devices have various deposition rates in the airway obstruction region. Here, we compared relative inhalation therapy efficacies and identified therapies that delivered the highest drug doses to the airway obstruction region. Weibel's anatomy data were used to identify the airway obstruction region in asthma. Based on European Standardization Committee data, we investigated the diameters of the drug particles being deposited there and evaluated the average particle size and distribution of the budesonide dosage forms and application devices. Drug dose depositions were measured by HPLC at each stage of a Cascade Impactor. Weibel's anatomy data indicated that the 1st-4th bronchial generations comprised the airway obstruction region and corresponded to the tracheobronchial area. According to the European Standardization, particles 2-6 µm in diameter were readily deposited there. The proportions of particles in this size range were 33.0%, 32.0%, 59.0%, and 78.0% for Turbuhaler, Symbicort, mesh-type NE-U22 suspension, and jet-type NE-C28 suspension, respectively. We localized the airway obstruction regions of bronchial asthma and identified the optimal inhalation therapy particle size. An electric nebulizer was more efficacious for budesonide administration than dry powder delivery. The NE-C28 treatment deposited 2.36x more budesonide in the airway obstruction region than dry powder delivery systems.

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干粉和布地奈德吸入悬浮液在哮喘气道阻塞区的沉积率。
类固醇吸入是标准的支气管哮喘治疗方法,它包括粉状计量剂量、干粉和雾化器悬浮液。然而,颗粒大小变化很大。研究目的是为了证明不同的布地奈德给药形式和装置在气道阻塞区有不同的沉积率。在这里,我们比较了吸入疗法的相对疗效,并确定了向气道阻塞区域输送最高药物剂量的疗法。使用Weibel解剖数据识别哮喘气道阻塞区。根据欧洲标准化委员会的数据,我们调查了沉积在那里的药物颗粒的直径,并评估了布地奈德剂型和应用装置的平均粒径和分布。在级联冲击器的每个阶段用高效液相色谱法测量药物剂量沉积。Weibel解剖资料显示,第1 ~第4代支气管构成气道阻塞区,与气管支气管区相对应。根据欧洲标准,直径2-6微米的颗粒很容易沉积在那里。Turbuhaler、Symbicort、网格型NE-U22和喷射型NE-C28悬浮液在该粒径范围内的颗粒比例分别为33.0%、32.0%、59.0%和78.0%。我们定位支气管哮喘气道阻塞区域并确定最佳吸入治疗颗粒大小。电动雾化器对布地奈德给药比干粉给药更有效。NE-C28处理在气道阻塞区域的布地奈德沉积比干粉输送系统多2.36倍。
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来源期刊
Journal of drug delivery
Journal of drug delivery PHARMACOLOGY & PHARMACY-
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