新生儿、儿童和成人鼻上气道和肺模型中高流量鼻导管疗法的气溶胶输送效率

IF 2.4 4区医学 Q2 CRITICAL CARE MEDICINE

Respiratory care Pub Date : 2024-08-24 DOI:10.4187/respcare.11400

Robert M DiBlasi, Rebecca J Engberg, Jonathan Poli, Kristen E Carlin, Niko Kontoudios, P Worth Longest, Masaki Kajimoto

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引用次数: 0

摘要

背景：高流量鼻插管（HFNC）系统采用不同的方法向患者提供气溶胶。本研究比较了近端气溶胶适配器和远端气溶胶回路室在新生儿、儿童和成人上气道和肺部模型中进行高流量鼻插管时气溶胶支气管扩张剂的输送效率、颗粒大小和区域沉积情况：方法：将过滤器连接到自主呼吸肺模型的上气道。在不同的临床流量设置下，使用气溶胶适配器和气溶胶回路雾化阿布特罗。对沉积在上气道和肺部的气溶胶质量进行量化。粒度用激光衍射仪测量。在最小流量设置下，用伽马相机对每个雾化器位置和患者模型进行区域沉积评估：结果：新生儿吸入肺部的剂量为 0.2-0.8%，幼儿为 0.2-2.2%，成人为 0.5-5.2%。新生儿吸入肺部的剂量在气溶胶回路和适配器之间没有差异，但气溶胶回路在小儿和成人患者模型中的肺部剂量略大。非加热 HFNC 和气溶胶输送组件中的撞击气溶胶和冷凝造成了粗液滴的分散、高沉积（11-44%）和仰卧位新生儿上气道的闭塞。相比之下，直立的儿童和成人上气道模型的沉积物极少（0.3-7.0%），而从鼻腔渗出的液滴造成的逃逸损失较高（∼24%）。与气溶胶回路相比，气溶胶适配器中的高冲击损失（56%）得到了更好的控制，从而减少了插管溅射（5% 对 22%），减少了逃逸损失（18% 对 24%），吸入的气溶胶也更小（5 µm 对 13 µm）：结论：在高频核磁共振过程中，吸入肺部的剂量很低（1-5%）。需要简化气溶胶输送的方法，以便为使用这种 HFNC 系统接受气溶胶药物治疗的患者提供安全有效的治疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aerosol Delivery Efficiency With High-Flow Nasal Cannula Therapy in Neonatal, Pediatric, and Adult Nasal Upper-Airway and Lung Models.

Background: High-flow nasal cannula (HFNC) systems employ different methods to provide aerosol to patients. This study compared delivery efficiency, particle size, and regional deposition of aerosolized bronchodilators during HFNC in neonatal, pediatric, and adult upper-airway and lung models between a proximal aerosol adapter and distal aerosol circuit chamber.

Methods: A filter was connected to the upper airway to a spontaneously breathing lung model. Albuterol was nebulized using the aerosol adapter and circuit at different clinical flow settings. The aerosol mass deposited in the upper airway and lung was quantified. Particle size was measured with a laser diffractometer. Regional deposition was assessed with a gamma camera at each nebulizer location and patient model with minimum flow settings.

Results: Inhaled lung doses ranged from 0.2-0.8% for neonates, 0.2-2.2% for the small child, and 0.5-5.2% for the adult models. Neonatal inhaled lung doses were not different between the aerosol circuit and adapter, but the aerosol circuit showed marginally greater lung doses in the pediatric and adult patient models. Impacted aerosols and condensation in the non-heated HFNC and aerosol delivery components contributed to the dispersion of coarse liquid droplets, high deposition (11-44%), and occlusion of the supine neonatal upper airway. In contrast, the upright pediatric and adult upper-airway models had minimal deposition (0.3-7.0%) and high fugitive losses (∼24%) from liquid droplets leaking out of the nose. The high impactive losses in the aerosol adapter (56%) were better contained than in the aerosol circuit, resulting in less cannula sputter (5% vs 22%), fewer fugitive losses (18% vs 24%), and smaller inhaled aerosols (5 µm vs 13 µm).

Conclusions: The inhaled lung dose was low (1-5%) during HFNC. Approaches that streamline aerosol delivery are needed to provide safe and effective therapy to patients receiving aerosolized medications with this HFNC system.

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来源期刊

Respiratory care 医学-呼吸系统

CiteScore

4.70

自引率

16.00%

发文量

209

审稿时长

1 months

期刊介绍： RESPIRATORY CARE is the official monthly science journal of the American Association for Respiratory Care. It is indexed in PubMed and included in ISI''s Web of Science.