健康受试者无创通气期间输送气体的含水量。

Water content of delivered gases during non-invasive ventilation in healthy subjects.

作者信息

Lellouche François, Maggiore Salvatore Maurizio, Lyazidi Aissam, Deye Nicolas, Taillé Solenne, Brochard Laurent

机构信息

Service de Réanimation Médicale, Assistance Publique-Hôpitaux de Paris, Centre Hospitalier Albert Chenevier, Henri Mondor, Université Paris 12, Créteil, INSERM U 955, Créteil, France.

出版信息

Intensive Care Med. 2009 Jun;35(6):987-95. doi: 10.1007/s00134-009-1455-y. Epub 2009 Mar 18.

DOI:10.1007/s00134-009-1455-y

PMID:19294366

Abstract

INTRODUCTION

No clear recommendation exists concerning humidification during non-invasive ventilation (NIV) and high flow CPAP, and few hygrometric data are available.

METHODS

We measured hygrometry during NIV delivered to healthy subjects with different humidification strategies: heated humidifier (HH), heat and moisture exchanger, (HME) or no humidification (NoH). For each strategy, a turbine and an ICU ventilator were used with different FiO(2) settings, with and without leaks. During CPAP, two different HH and NoH were tested. Inspired gases hygrometry was measured, and comfort was assessed. On a bench, we also assessed the impact of ambient air temperature, ventilator temperature and minute ventilation on HH performances (with NIV settings).

RESULTS

During NIV, with NoH, gas humidity was very low when an ICU ventilator was used (5 mgH(2)O/l), but equivalent to ambient air hygrometry with a turbine ventilator at minimal FiO(2) (13 mgH(2)O/l). HME and HH had comparable performances (25-30 mgH(2)O/l), but HME's effectiveness was reduced with leaks (15 mgH(2)O/l). HH performances were reduced by elevated ambient air and ventilator output temperatures. During CPAP, dry gases (5 mgH(2)O/l) were less tolerated than humidified gases. Gases humidified at 15 or 30 mgH(2)O/l were equally tolerated.

CONCLUSION

This study provides data on the level of humidity delivered with different humidification strategies during NIV and CPAP. HH and HME provide gas with the highest water content. Comfort data suggest that levels above 15 mgH(2)O/l are well tolerated. In favorable conditions, HH and HMEs are capable of providing such values, even in the presence of leaks.

摘要

引言

关于无创通气（NIV）和高流量持续气道正压通气（CPAP）期间的湿化，目前尚无明确建议，且湿度数据较少。

方法

我们采用不同的湿化策略对健康受试者进行NIV时测量湿度：加热湿化器（HH）、热湿交换器（HME）或无湿化（NoH）。对于每种策略，使用涡轮机和ICU呼吸机，设置不同的吸氧浓度（FiO₂），有漏气和无漏气情况。在CPAP期间，测试了两种不同的HH和NoH。测量吸入气体湿度，并评估舒适度。在实验台上，我们还评估了环境空气温度、呼吸机温度和分钟通气量对HH性能（采用NIV设置）的影响。

结果

在NIV期间，采用NoH时，使用ICU呼吸机时气体湿度非常低（5mgH₂O/l），但在最低FiO₂时，使用涡轮呼吸机时气体湿度与环境空气湿度相当（13mgH₂O/l）。HME和HH具有相当的性能（25 - 30mgH₂O/l），但有漏气时HME的有效性降低（15mgH₂O/l）。环境空气和呼吸机输出温度升高会降低HH的性能。在CPAP期间，干燥气体（5mgH₂O/l）比湿化气体更不易耐受。湿化至15或30mgH₂O/l的气体耐受性相同。

结论

本研究提供了NIV和CPAP期间不同湿化策略下的湿度水平数据。HH和HME提供的气体含水量最高。舒适度数据表明，高于15mgH₂O/l的水平耐受性良好。在有利条件下，即使存在漏气，HH和HME也能够提供这样的值。

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健康受试者无创通气期间输送气体的含水量。

Water content of delivered gases during non-invasive ventilation in healthy subjects.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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