使用特大颗粒和极慢吸入将雾化药物靶向传导气道。

Targeting aerosolized drugs to the conducting airways using very large particles and extremely slow inhalations.

机构信息

Center for Environmental Medicine, Asthma and Lung Biology, University of North Carolina-Chapel Hill, Chapel Hill, North Carolina 27599, USA.

出版信息

J Aerosol Med Pulm Drug Deliv. 2010 Dec;23(6):363-9. doi: 10.1089/jamp.2008.0711. Epub 2010 Sep 23.

DOI:10.1089/jamp.2008.0711

PMID:20863250

Abstract

BACKGROUND

The site of deposition in the respiratory tract for aerosolized, inhaled therapeutic drugs depends on both the particles' aerodynamic size and the patient's breathing pattern.

METHODS

In 21 healthy subjects with normal lung function, we evaluated an extremely slow inhalation of a large 9.5-μm MMAD particle aerosol (ESI-9) for its ability to enhance the delivery of radiolabeled particles ((99m)Tc-labeled sulfur colloid) to the conducting airways. The regional deposition of the large particles (modified Pari-Boy jet nebulizer), inhaled at the extremely low rate of 0.080 Lps for 10 sec, was compared to the deposition of 5-μm MMAD particles inhaled during cyclic resting tidal breathing (TVB-5-) (mean 0.44 L and 0.46 Lps). Gamma scintigraphy gave an estimate of conducting airway deposition (% CAD) as a fraction of all deposited particles by multiplying the percent of activity in both lungs immediately postdeposition relative to the total deposition (i.e., lungs + mouth + esophagus + stomach) times the percent of activity cleared from the lungs over 24 h.

RESULTS

% CAD for healthy subjects for the ESI-9 and TVB-5 maneuvers was 35% (±8%) and 27% (±11%), respectively, p = 0.004). The amount deposited within the oropharynx was 26% (±7%) and 37% (±11%), respectively, p < 0.001.

CONCLUSIONS

Higher therapeutic value of a medication delivered to the conducting airways where the primary defect is associated with many diseases, and with fewer losses to the extrathoracic surfaces, may be obtained by using an "extremely slow inhalation and large particle" routine when compared to a normal tidal volume breathing associated with typical nebulizers.

摘要

背景

吸入性治疗药物在呼吸道中的沉积部位取决于颗粒的空气动力学粒径和患者的呼吸模式。

方法

在 21 名肺功能正常的健康受试者中，我们评估了一种极慢吸入大粒径 9.5μm 平均空气动力学粒径（MMAD）颗粒气溶胶（ESI-9）的能力，以增强放射性标记颗粒（99mTc 标记硫胶体）递送至传导气道。通过极慢的 0.080 Lps 吸入 10 秒，比较了大颗粒（改良的 Pari-Boy 射流雾化器）的局部沉积与循环静息潮气呼吸（TVB-5-）期间吸入的 5μm MMAD 颗粒的沉积（平均 0.44 L 和 0.46 Lps）。伽马闪烁显像术通过将沉积后即刻双肺内的活性百分比与总沉积（即肺+口+食管+胃）相乘，再乘以 24 小时内从肺内清除的活性百分比，来估计传导气道沉积（% CAD）作为所有沉积颗粒的分数。

结果

健康受试者 ESI-9 和 TVB-5 操作的% CAD 分别为 35%（±8%）和 27%（±11%），p = 0.004）。口咽沉积量分别为 26%（±7%）和 37%（±11%），p < 0.001。

结论

与典型的雾化器相关的正常潮气量呼吸相比，通过使用“极慢吸入和大颗粒”常规，将药物递送至与许多疾病相关的传导气道，并减少向胸外表面的损失，可能会获得更高的治疗价值。

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使用特大颗粒和极慢吸入将雾化药物靶向传导气道。

Targeting aerosolized drugs to the conducting airways using very large particles and extremely slow inhalations.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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