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解剖结构和颗粒大小对鼻腔喷雾剂和雾化器的影响。

Effects of anatomy and particle size on nasal sprays and nebulizers.

机构信息

Department of Otolaryngology/Head and Neck Surgery, University of North Carolina, Chapel Hill, North Carolina, USA.

出版信息

Otolaryngol Head Neck Surg. 2012 Feb;146(2):313-9. doi: 10.1177/0194599811427519. Epub 2011 Nov 2.

DOI:10.1177/0194599811427519
PMID:22049020
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3636209/
Abstract

OBJECTIVE

To study the effects of nasal deformity on aerosol penetration past the nasal valve (NV) for varying particle sizes using sprays or nebulizers.

STUDY DESIGN

Computed mathematical nasal airway model.

SETTING

Department computer lab.

SUBJECTS AND METHODS

Particle deposition was analyzed using a computational fluid dynamics model of the human nose with leftward septal deviation and compensatory right inferior turbinate hypertrophy. Sprays were simulated for 10 µm, 20 µm, 50 µm, or particle sizes following a Rosin Rammler particle size distribution (10-110 µm), at speeds of 1, 3, or 10 meters per second. Nebulization was simulated for 1, 3.2, 6.42, or 10 µm particles. Steady state inspiratory airflow was simulated at 15.7 liters per minute.

RESULTS

Sprays predicted higher NV penetration on the right side for particle sizes >10 µm, with comparable penetration on both sides at 10 µm. Nearly 100% deposited in the nasal passages for all spray characteristics. Nebulizer predictions showed nearly 100% of particles <6.42 µm and more than 50% of 6.42 µm bypassing both sides of the nose without depositing. Of the nebulized particles that deposited, penetration was higher on the right at 10 µm, with comparable penetration on both sides at 6.42 µm. Spray penetration was highest at 10 µm, with more than 96% penetrating on both sides at 1 and 3 meters per second. Nebulization penetration was also highest at 10 µm (40% on the left, >90% on the right).

CONCLUSION

In the presence of a septal deviation, sprays or nebulizers containing 10-µm particles may have good penetration beyond the NV. Nebulized particles <10 µm are likely to be respirable. Additionally, spray speeds above 3 meters per second may limit penetration.

摘要

目的

研究不同粒径的喷雾或雾化器通过鼻阀(NV)时对鼻畸形气溶胶穿透的影响。

研究设计

计算数学鼻气道模型。

设置

系计算机实验室。

受试者和方法

使用伴有左侧鼻中隔偏曲和右侧下鼻甲代偿性肥大的人体鼻计算流体动力学模型分析粒子沉积。模拟了速度为 1、3 或 10 米/秒的 10 µm、20 µm、50 µm 或 Rosin Rammler 粒径分布(10-110 µm)后的粒径喷雾,以及 1、3.2、6.42 或 10 µm 颗粒的雾化。以 15.7 升/分钟的流速模拟稳态吸气气流。

结果

喷雾预测粒径大于 10 µm 时右侧 NV 穿透率较高,粒径为 10 µm 时两侧穿透率相当。所有喷雾特性下,几乎 100%的颗粒沉积在鼻腔内。雾化器预测结果显示,所有粒径小于 6.42 µm 的颗粒几乎 100%都绕过了鼻子的两侧而没有沉积,而 6.42 µm 以上的颗粒中有超过 50%没有沉积。雾化器沉积的颗粒中,粒径为 10 µm 时右侧穿透率较高,粒径为 6.42 µm 时两侧穿透率相当。10 µm 时喷雾穿透率最高,1 和 3 米/秒时两侧穿透率均超过 96%。雾化器穿透率也在 10 µm 时最高(左侧 40%,右侧>90%)。

结论

在鼻中隔偏曲的情况下,含有 10 µm 颗粒的喷雾或雾化器可能具有良好的 NV 穿透能力。粒径小于 10 µm 的雾化颗粒很可能是可吸入的。此外,超过 3 米/秒的喷雾速度可能会限制穿透率。

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