Effect of Interrupting Heated Humidification on Nebulized Drug Delivery Efficiency, Temperature, and Absolute Humidity During Mechanical Ventilation: A Multi-Lab In Vitro Study.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-04-02 DOI:10.1089/jamp.2023.0028
Sophie Jacquier, Hui-Ling Lin, Jie Li, Caylie A Sheridan, Paul Karabelas, Jui-Fang Liu, Stephan Ehrmann, James B Fink
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Abstract

Introduction: During mechanical ventilation (MV), inspired gases require heat and humidification. However, such conditions may be associated with reduced aerosol delivery efficiency. The practice of turning off heated humidification before nebulization and the impact of nebulization on humidity in a dry ventilator circuit remain topics of debate. This study aimed to assess the effect of turning off heated humidification on inhaled dose and humidity with nebulizer use during adult MV. Methods: A bronchodilator (albuterol) and two antibiotics (Colistimethate sodium and Amikacin sulfate) were nebulized with a vibrating mesh nebulizer placed at the humidifier inlet and in the inspiratory limb at the Y-piece. Additionally, albuterol was nebulized using a jet nebulizer in both placements. Aerosol particle size distribution was determined through a cascade impactor. Absolute humidity (AH) and temperature of inspired gases were determined with anemometer/hygrometers before, during, and after nebulization, before, during, and up to 60 minutes after interrupting active humidification. Aerosol collected on a filter distal to the endotracheal tube and on impactor stages were eluted and assayed by spectrophotometry. Results: The inhaled dose was greater when both nebulizers were placed at the humidifier inlet than the inspiratory limb at the Y-piece. Irrespective of the nebulizer types and placements, the inhaled dose either decreased or showed no significant change after the humidifier was turned off. The aerosol particle size ranged from 1.1 to 2.7 μm. With interruption of active humidification, humidity of inspired gas quickly dropped below recommended levels, and nebulization in dry ventilator circuit produced an AH between 10 and 20 mgH2O/L, lower than the recommended minimum of 30 mgH2O/L. Conclusion: Interrupting active humidification during MV before nebulization did not improve aerosol delivery efficiency for bronchodilator or antibiotics, but did reduce humidity below recommended levels.

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机械通气期间中断加热加湿对雾化给药效率、温度和绝对湿度的影响:多实验室体外研究。
简介:在机械通气(MV)过程中,吸入气体需要加热和加湿。然而,这种条件可能会降低气溶胶输送效率。雾化前关闭加热加湿的做法以及雾化对干燥通气回路湿度的影响仍是争论的话题。本研究旨在评估成人 MV 期间使用雾化器时关闭加热加湿对吸入剂量和湿度的影响。方法:使用放置在加湿器入口处和吸气肢 Y 片处的振动网状雾化器雾化支气管扩张剂(阿布特罗)和两种抗生素(考来烯胺酸钠和硫酸阿米卡星)。此外,还在这两个位置使用喷射式雾化器雾化阿布特罗。气溶胶粒径分布通过级联冲击器进行测定。在雾化前、雾化过程中和雾化后,以及在中断主动加湿前、中断主动加湿过程中和中断主动加湿后 60 分钟内,使用风速计/湿度计测定吸入气体的绝对湿度 (AH) 和温度。在气管导管远端的过滤器上和冲击器平台上收集的气溶胶经洗脱后用分光光度法进行测定。结果:当两个雾化器都置于加湿器入口处时,吸入的剂量要大于 Y 型吸入肢。无论雾化器的类型和位置如何,在加湿器关闭后,吸入剂量要么减少,要么无明显变化。气溶胶颗粒大小在 1.1 至 2.7 μm 之间。随着主动加湿功能的中断,吸入气体的湿度迅速降至推荐水平以下,在干燥的呼吸机回路中雾化产生的 AH 介于 10 至 20 mgH2O/L 之间,低于推荐的最低值 30 mgH2O/L。结论在雾化前的 MV 期间中断主动加湿并不能提高支气管扩张剂或抗生素的气溶胶输送效率,但却能将湿度降至推荐水平以下。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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