面罩死腔及面罩孔堵塞对雾化吸入沙丁胺醇给药的影响。
Effect of mask dead space and occlusion of mask holes on delivery of nebulized albuterol.
作者信息
Berlinski Ariel
出版信息
Respir Care. 2014 Aug;59(8):1228-32. doi: 10.4187/respcare.02978.
BACKGROUND
Infants and children with respiratory conditions are often prescribed bronchodilators. Face masks are used to facilitate the administration of nebulized therapy in patients unable to use a mouthpiece. Masks incorporate holes into their design, and their occlusion during aerosol delivery has been a common practice. Masks are available in different sizes and different dead volumes. The aim of this study was to compare the effect of different degrees of occlusion of the mask holes and different mask dead space on the amount of nebulized albuterol available at the mouth opening in a model of a spontaneously breathing child.
METHODS
A breathing simulator mimicking infant (tidal volume [VT] = 50 mL, breathing frequency = 30 breaths/min, inspiratory-expiratory ratio [I:E] = 1:3), child (VT = 155 mL, breathing frequency = 25 breaths/min, I:E = 1:2), and adult (VT = 500 mL, breathing frequency = 15 breaths/min, I:E = 1:2) breathing patterns was connected to a collection filter hidden behind a face plate. A pediatric size mask and an adult size mask connected to a continuous output jet nebulizer were sealed to the face plate. Three nebulizers were loaded with albuterol sulfate (2.5 mg/3 mL) and operated with 6 L/min compressed air for 5 min. Experiments were repeated with different degrees of occlusion (0%, 50%, and 90%). Albuterol was extracted from the filter and measured with a spectrophotometer at 276 nm.
RESULTS
Occlusion of the holes in the large mask did not increase the amount of albuterol in any of the breathing patterns. The amount of albuterol captured at the mouth opening did not change when the small mask was switched to the large mask, except with the breathing pattern of a child, and when the holes in the mask were 50% occluded (P = .02).
CONCLUSIONS
Neither decreasing the dead space of the mask nor occluding the mask holes increased the amount of nebulized albuterol captured at the mouth opening.
背景
患有呼吸道疾病的婴幼儿常被开具支气管扩张剂。面罩用于帮助无法使用口含器的患者进行雾化治疗。面罩在设计上有小孔,在气雾剂给药过程中对面罩进行封堵是一种常见做法。面罩有不同尺寸和不同死腔。本研究的目的是在一个模拟自主呼吸儿童的模型中,比较面罩小孔不同程度的封堵以及不同面罩死腔对开口处可获得的雾化沙丁胺醇量的影响。
方法
一个模拟婴儿(潮气量[VT]=50 mL,呼吸频率=30次/分钟,吸呼比[I:E]=1:3)、儿童(VT=155 mL,呼吸频率=25次/分钟,I:E=1:2)和成人(VT=500 mL,呼吸频率=15次/分钟,I:E=1:2)呼吸模式的呼吸模拟器连接到隐藏在面板后面的收集过滤器上。一个儿科尺寸的面罩和一个成人尺寸的面罩连接到连续输出喷射雾化器上,并密封在面板上。三个雾化器装入硫酸沙丁胺醇(2.5 mg/3 mL),并以6 L/分钟的压缩空气运行5分钟。以不同程度的封堵(0%、50%和90%)重复实验。从过滤器中提取沙丁胺醇,并用分光光度计在276 nm处进行测量。
结果
大面罩上小孔的封堵在任何呼吸模式下均未增加沙丁胺醇的量。当从小面罩切换到大面罩时(儿童呼吸模式除外),以及当面罩上的小孔被50%封堵时(P=0.02),开口处捕获的沙丁胺醇量没有变化。
结论
减小面罩的死腔或封堵面罩小孔均未增加开口处捕获的雾化沙丁胺醇量。
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