Hypertonic saline jet nebulization breathing treatments produce a predictable quantity of aerosolized sodium chloride for inhalation.

Martin J Flores, MaTais Caldwell, Kalysa D Passmore, Megan Denney, James M Carr, Kerri Carr, Jeremy M Carr
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Abstract

Purpose: The amount of sodium chloride (NaCl) that escapes a nebulizer cup, intended for patient inhalation, during a 5-min hypertonic saline jet nebulization (HSJN) breathing treatment is apparently unknown in the pure and applied scientific literature. This study aimed to address this void by focusing on NaCl mass changes prior to and after a typical HSJN breathing treatment using an ordinary household, medical-grade air compressor.

Research methods: Saline solutions of varying concentrations were nebulized to room air for 5 min. Pre- and post-nebulization NaCl concentrations were determined from measured conductivities via calibration curve. The resulting data were used to quantify NaCl mass changed from the beginning and end of a typical HSJN breathing treatment.

Main findings: Conductivity was a reliable metric in NaCl concentrations ranging from 2.10 × 10-1 to 8.16 × 10-3 M. Pre- and post-nebulization NaCl mass differences of 19-114 mg linearly correlated with saline concentration (wt%). The resulting trendline data reasonably predict how much NaCl is available for patient inhalation during a typical HSJN breathing treatment. Linearity in the data suggests that factors such as colligative properties (e.g., osmolarity) have a minimal influence on the amount of NaCl that escapes the nebulizer cup.

Conclusions: These results are the first to quantify how much NaCl escapes a nebulizer cup during a typical HSJN breathing treatment. Furthermore, the results represent a key starting point upon which future studies can be built to explore additional airflow rates, kinetics, and temperature effects. Collectively, these findings will play a critical role in ascertaining the mechanism of action in hypertonic saline breathing treatments.

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高渗盐水喷射雾化呼吸治疗可产生可预测数量的气溶胶氯化钠供吸入。
目的:在 5 分钟的高渗盐水喷射雾化(HSJN)呼吸治疗过程中,供患者吸入的雾化杯中逸出的氯化钠(NaCl)量在纯科学和应用科学文献中显然是未知的。本研究旨在利用普通家用医用级空气压缩机,重点研究典型 HSJN 呼吸治疗前后 NaCl 的质量变化,从而填补这一空白:研究方法:将不同浓度的生理盐水溶液雾化到室内空气中 5 分钟。通过校准曲线测量电导率,确定雾化前和雾化后的氯化钠浓度。所得数据用于量化典型 HSJN 呼吸治疗开始和结束时 NaCl 质量的变化:在 NaCl 浓度为 2.10 × 10-1 至 8.16 × 10-3 M 时,电导率是一个可靠的指标。雾化前后 NaCl 质量差异为 19-114 mg,与盐水浓度(重量百分比)呈线性相关。由此得出的趋势线数据合理地预测了在典型的 HSJN 呼吸治疗过程中患者可吸入的氯化钠量。数据的线性关系表明,碰撞特性(如渗透压)等因素对从雾化杯中溢出的氯化钠量的影响微乎其微:这些结果首次量化了在典型的 HSJN 呼吸治疗过程中有多少 NaCl 从雾化杯中溢出。此外,这些结果是一个关键的起点,未来的研究可以在此基础上探索更多的气流速率、动力学和温度影响。总之,这些研究结果将在确定高渗盐水呼吸治疗的作用机制方面发挥关键作用。
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