高效鼻内递药:采用在线 DPI 需低驱动气流。
Efficient Nose-to-Lung Aerosol Delivery with an Inline DPI Requiring Low Actuation Air Volume.
机构信息
Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, 401 West Main Street, P.O. Box 843015 Richmond, Virginia, 23284-3015, USA.
Department of Pharmaceutics, Virginia Commonwealth University Richmond, Virginia, USA.
出版信息
Pharm Res. 2018 Aug 21;35(10):194. doi: 10.1007/s11095-018-2473-7.
Abstract
PURPOSE
To demonstrate efficient aerosol delivery through an in vitro nasal model using a dry powder inhaler (DPI) requiring low actuation air volumes (LV) applied during low-flow nasal cannula (LFNC) therapy.
METHODS
A previously developed LV-DPI was connected to a LFNC system with 4 mm diameter tubing. System connections and the nasal cannula interface were replaced with streamlined components. To simulate nasal respiration, an in vitro nasal model was connected to a downstream lung simulator that produced either passive or deep nasal respiration. Performance of a commercial mesh nebulizer system was also considered.
RESULTS
For the optimized system, steady state cannula emitted dose was 75% of the capsule loaded dose. With cyclic nasal breathing, delivery efficiency to the tracheal filter was 53-55% of the loaded dose, which was just under the design target of 60%. Compared with a commercially available mesh nebulizer, the optimal LV-DPI was 40-fold more efficient and 150 times faster in terms of delivering aerosol to the lungs.
CONCLUSIONS
The optimized LV-DPI system is capable of high efficiency lung delivery of powder aerosols through a challenging nasal cannula interface.
摘要
目的
通过使用在低流量鼻插管 (LFNC) 治疗期间需要低触发空气量 (LV) 的干粉吸入器 (DPI),展示通过体外鼻腔模型进行高效的气溶胶输送。
方法
将先前开发的 LV-DPI 连接到带有 4 毫米直径管的 LFNC 系统。系统连接和鼻插管接口被流线型部件取代。为了模拟鼻腔呼吸,体外鼻腔模型与下游肺模拟器相连,肺模拟器产生被动或深鼻腔呼吸。还考虑了商业网孔雾化器系统的性能。
结果
对于优化后的系统,稳态插管发射剂量是胶囊加载剂量的 75%。使用周期性鼻腔呼吸,输送到气管过滤器的效率为加载剂量的 53-55%,略低于 60%的设计目标。与市售的网孔雾化器相比,优化后的 LV-DPI 输送气溶胶到肺部的效率高 40 倍,速度快 150 倍。
结论
优化的 LV-DPI 系统能够通过具有挑战性的鼻插管接口实现粉末气溶胶的高效肺部输送。
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