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使用4种不同的气泡持续气道正压通气系统向肺模型输送的容积振荡

Volume Oscillations Delivered to a Lung Model Using 4 Different Bubble CPAP Systems.

作者信息

Poli Jonathan A, Richardson C Peter, DiBlasi Robert M

机构信息

Center for Developmental Therapeutics, Seattle Children's Hospital Research Institute, Seattle, Washington.

Center for Developmental Therapeutics, Seattle Children's Hospital Research Institute, Seattle, Washington. University of Washington School of Medicine, Seattle, Washington.

出版信息

Respir Care. 2015 Mar;60(3):371-81. doi: 10.4187/respcare.03432. Epub 2014 Nov 25.

Abstract

BACKGROUND

High-frequency pressure oscillations created by gas bubbling through an underwater seal during bubble CPAP may enhance ventilation and aid in lung recruitment in premature infants. We hypothesized that there are no differences in the magnitude of oscillations in lung volume (ΔV) in a preterm neonatal lung model when different bubble CPAP systems are used.

METHODS

An anatomically realistic replica of an infant nasal airway model was attached to a Silastic test lung sealed within a calibrated plethysmograph. Nasal prongs were affixed to the simulated neonate and supported using bubble CPAP systems set at 6 cm H2O. ΔV was calculated using pressure measurements obtained from the plethysmograph.

RESULTS

The Fisher & Paykel Healthcare bubble CPAP system provided greater ΔV than any of the other devices at all of the respective bias flows (P < .05). The Fisher & Paykel Healthcare and Babi.Plus systems generally provided ΔV at lower frequencies than the other bubble CPAP systems. The magnitude of ΔV increased at bias flows of > 4 L/min in the Fisher & Paykel Healthcare, Airways Development, and homemade systems, but appeared to decrease as bias flow increased with the Babi.Plus system.

CONCLUSIONS

The major finding of this study is that bubble CPAP can provide measureable ventilation effects in an infant lung model. We speculate that the differences noted in ΔV between the different devices are a combination of the circuit/nasal prong configuration, bubbler configuration, and frequency of oscillations. Additional testing is needed in spontaneously breathing infants to determine whether a physiologic benefit exists when using the different bubble CPAP systems.

摘要

背景

在气泡持续气道正压通气(bubble CPAP)期间,气体通过水下密封装置产生的高频压力振荡可能会增强通气并有助于早产儿肺复张。我们假设,在早产新生儿肺模型中,使用不同的气泡CPAP系统时,肺容积振荡幅度(ΔV)没有差异。

方法

将婴儿鼻气道模型的逼真解剖复制品连接到密封在校准体积描记器内的硅橡胶测试肺上。将鼻导管固定在模拟新生儿身上,并使用设置为6 cm H₂O的气泡CPAP系统进行支撑。使用从体积描记器获得的压力测量值计算ΔV。

结果

在所有各自的偏流情况下,Fisher & Paykel Healthcare气泡CPAP系统提供的ΔV均高于任何其他设备(P <.05)。Fisher & Paykel Healthcare和Babi.Plus系统通常在比其他气泡CPAP系统更低的频率下提供ΔV。在Fisher & Paykel Healthcare、气道开发和自制系统中,偏流> 4 L/min时ΔV的幅度增加,但在Babi.Plus系统中,随着偏流增加,ΔV似乎降低。

结论

本研究的主要发现是气泡CPAP可以在婴儿肺模型中提供可测量的通气效果。我们推测,不同设备之间在ΔV上的差异是回路/鼻导管配置、气泡发生器配置和振荡频率的综合结果。需要对自主呼吸的婴儿进行额外测试,以确定使用不同的气泡CPAP系统时是否存在生理益处。

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