早产儿在接受无创高频通气时的肺容积分布。
Lung volume distribution in preterm infants on non-invasive high-frequency ventilation.
机构信息
Newborn Research, Department of Neonatology, University Hospital and University of Zurich, Zurich, Switzerland.
Department of Anesthesiology and Intensive Care Medicine, Rostock University Medical Center, Rostock, Germany.
出版信息
Arch Dis Child Fetal Neonatal Ed. 2022 Sep;107(5):551-557. doi: 10.1136/archdischild-2021-322990. Epub 2022 Jan 31.
INTRODUCTION
Non-invasive high-frequency oscillatory ventilation (nHFOV) is an extension of nasal continuous positive airway pressure (nCPAP) support in neonates. We aimed to compare global and regional distribution of lung volumes during nHFOV versus nCPAP.
METHODS
In 30 preterm infants enrolled in a randomised crossover trial comparing nHFOV with nCPAP, electrical impedance tomography data were recorded in prone position. For each mode of respiratory support, four episodes of artefact-free tidal ventilation, each comprising 30 consecutive breaths, were extracted. Tidal volumes (V) in 36 horizontal slices, indicators of ventilation homogeneity and end-expiratory lung impedance (EELI) for the whole lung and for four horizontal regions of interest (non-gravity-dependent to gravity-dependent; EELI, EELI, EELI, EELI) were compared between nHFOV and nCPAP. Aeration homogeneity ratio (AHR) was determined by dividing aeration in non-gravity-dependent parts of the lung through gravity-dependent regions.
MAIN RESULTS
Overall, 228 recordings were analysed. Relative V was greater in all but the six most gravity-dependent lung slices during nCPAP (all p<0.05). Indicators of ventilation homogeneity were similar between nHFOV and nCPAP (all p>0.05). Aeration was increased during nHFOV (mean difference (95% CI)=0.4 (0.2 to 0.6) arbitrary units per kilogram (AU/kg), p=0.013), mainly due to an increase in non-gravity-dependent regions of the lung (∆EELI=6.9 (0.0 to 13.8) AU/kg, p=0.028; ∆EELI=6.8 (1.2 to 12.4) AU/kg, p=0.009). Aeration was more homogeneous during nHFOV compared with nCPAP (mean difference (95% CI) in AHR=0.01 (0.00 to 0.02), p=0.0014).
CONCLUSION
Although regional ventilation was similar between nHFOV and nCPAP, end-expiratory lung volume was higher and aeration homogeneity was slightly improved during nHFOV. The aeration difference was greatest in non-gravity dependent regions, possibly due to the oscillatory pressure waveform. The clinical importance of these findings is still unclear.
介绍
非侵入性高频振荡通气(nHFOV)是对新生儿鼻持续气道正压通气(nCPAP)支持的扩展。我们旨在比较 nHFOV 与 nCPAP 时肺容积的全球和区域分布。
方法
在一项比较 nHFOV 与 nCPAP 的随机交叉试验中,我们招募了 30 名早产儿,记录了仰卧位的电阻抗断层扫描数据。对于每种呼吸支持模式,提取了 4 个无伪影的潮气量通气期,每个通气期包含 30 个连续呼吸。在 nHFOV 和 nCPAP 之间比较了 36 个水平切片中的潮气量(V)、通气均匀性指标和整个肺及 4 个感兴趣的水平区域的呼气末肺阻抗(EELI)(无重力依赖至重力依赖;EELI、EELI、EELI、EELI)。通过将肺的无重力依赖部分的通气除以重力依赖区域来确定通气均匀性比(AHR)。
主要结果
总共分析了 228 次记录。在 nCPAP 期间,除了最依赖重力的 6 个肺切片外,所有切片的相对 V 都更大(均 p<0.05)。nHFOV 和 nCPAP 之间的通气均匀性指标相似(均 p>0.05)。nHFOV 期间通气增加(平均差异(95%CI)=0.4(0.2 至 0.6)每公斤的任意单位(AU/kg),p=0.013),主要是由于肺的无重力依赖区域的增加(∆EELI=6.9(0.0 至 13.8)AU/kg,p=0.028;∆EELI=6.8(1.2 至 12.4)AU/kg,p=0.009)。与 nCPAP 相比,nHFOV 期间的通气更加均匀(平均差异(95%CI)在 AHR=0.01(0.00 至 0.02),p=0.0014)。
结论
尽管 nHFOV 与 nCPAP 之间的区域通气相似,但在 nHFOV 期间,呼气末肺容积更高,通气均匀性略有改善。在无重力依赖区域,通气差异最大,这可能是由于振荡压力波形所致。这些发现的临床重要性仍不清楚。
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