成人高频振荡通气期间的偏流率和通气效率:一项肺模型研究。
Bias flow rate and ventilation efficiency during adult high-frequency oscillatory ventilation: a lung model study.
作者信息
Nagano Osamu, Yumoto Tetsuya, Nishimatsu Atsunori, Kanazawa Shunsuke, Fujita Takahisa, Asaba Sunao, Yamanouchi Hideo
机构信息
Department of Disaster and Emergency Medicine, Kochi University Medical School, 185-1, Kohasu, Oko-cho, Nankoku, Kochi, 783-8505, Japan.
Advanced Emergency and Critical Care Medical Center, Okayama University Hospital, 2-5-1, Shikata-cho, Kita-ku, Okayama, 700-8558, Japan.
出版信息
Intensive Care Med Exp. 2018 Apr 19;6(1):11. doi: 10.1186/s40635-018-0176-3.
BACKGROUND
Bias flow (BF) is essential to maintain mean airway pressure (MAP) and to washout carbon dioxide (CO) from the oscillator circuit during high-frequency oscillatory ventilation (HFOV). If the BF rate is inadequate, substantial CO rebreathing could occur and ventilation efficiency could worsen. With lower ventilation efficiency, the required stroke volume (SV) would increase in order to obtain the same alveolar ventilation with constant frequency. The aim of this study was to assess the effect of BF rate on ventilation efficiency during adult HFOV.
METHODS
The R100 oscillator (Metran, Japan) was connected to an original lung model internally equipped with a simulated bronchial tree. The actual SV was measured with a flow sensor placed at the Y-piece. Carbon dioxide (CO) was continuously insufflated into the lung model ([Formula: see text]CO), and the partial pressure of CO (PCO) in the lung model was monitored. Alveolar ventilation ([Formula: see text]A) was estimated as [Formula: see text]CO divided by the stabilized value of PCO. [Formula: see text]A was evaluated by setting SV from 80 to 180 mL (10 mL increments, n = 5) at a frequency of 8 Hz, a MAP of 25 cmHO, and a BF of 10, 20, 30, and 40 L/min (study 1). Ventilation efficiency was calculated as [Formula: see text]A divided by the actual minute volume. The experiment was also performed with an actual SV of 80, 100, and 120 mL and a BF from 10 to 60 L/min (10 L/min increments: study 2).
RESULTS
Study 1: With the same setting SV, the [Formula: see text]A with a BF of 20 L/min or more was significantly higher than that with a BF of 10 L/min. Study 2: With the same actual SV, the [Formula: see text]A and the ventilation efficiency with a BF of 30 L/min or more were significantly higher than those with a BF of 10 or 20 L/min.
CONCLUSIONS
Increasing BF up to 30 L/min or more improved ventilation efficiency in the R100 oscillator.
背景
在高频振荡通气(HFOV)期间,偏流(BF)对于维持平均气道压(MAP)以及从振荡回路中排出二氧化碳(CO₂)至关重要。如果偏流速率不足,可能会发生大量的CO₂重复吸入,并且通气效率可能会恶化。随着通气效率降低,为了在恒定频率下获得相同的肺泡通气量,所需的潮气量(SV)将会增加。本研究的目的是评估偏流速率对成人HFOV期间通气效率的影响。
方法
将R100振荡器(日本Metran公司)连接到内部配备模拟支气管树的原始肺模型上。通过放置在Y形接头处的流量传感器测量实际潮气量。将二氧化碳(CO₂)持续吹入肺模型([公式:见正文]CO₂),并监测肺模型中CO₂的分压(PCO₂)。肺泡通气量([公式:见正文]VA)估计为[公式:见正文]CO₂除以PCO₂ 的稳定值。在频率为8Hz、MAP为25cmH₂O以及偏流为10、20、30和40L/min的条件下,通过将潮气量设置为80至180mL(以10mL递增,n = 5)来评估[公式:见正文]VA(研究1)。通气效率计算为[公式:见正文]VA除以实际分钟通气量。还使用实际潮气量为80、100和120mL以及偏流为10至60L/min(以10L/min递增:研究2)进行了实验。
结果
研究1:在相同的设定潮气量下,偏流为20L/min或更高时的[公式:见正文]VA显著高于偏流为10L/min时的[公式:见正文]VA。研究2:在相同的实际潮气量下,偏流为30L/min或更高时的[公式:见正文]VA和通气效率显著高于偏流为10或20L/min时的[公式:见正文]VA和通气效率。
结论
将偏流增加至30L/min或更高可提高R100振荡器的通气效率。
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