新生儿无创复苏策略对早产羔羊肺力学、气管压力和潮气量的影响。

IF 3.6 2区 医学 Q1 PHYSIOLOGY
Davide Bizzotto, Mar Janna Dahl, Chiara Veneroni, Anna Lavizzari, Andrew Rebentisch, Elaine Dawson, Sydney Bowen, Kaitlin Zuspan, Bradley A Yoder, Kurt H Albertine, Raffaele L Dellacà
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引用次数: 0

摘要

本研究调查了三种呼吸支持方法对早产羔羊出生后头两小时肺容量募集的影响。我们通过 5 赫兹的振荡测量法测量呼吸阻力和反应,从而估计肺通气量的变化。我们还测量了部分羔羊的气管内压。第一个主要发现是,无创持续充气(SI)(面罩 SI;7 只)或有创持续充气(气管内插管,ETT SI;6 只)会导致类似的快速肺容量募集(约 6 分钟)。相比之下,面罩持续气道正压(CPAP)无创复苏(n=6)则需要更长的时间(约 30-45 分钟)才能达到相似的肺容量募集。第二个主要发现是,在出生后的头 15 分钟,无 SI 面罩 CPAP 组在呼吸机驱动的自定义呼气过程中关闭喉咙,导致气管内呼气末正压达到约 17 cmH2O(而不是呼吸机提供的 8 cmH2O)。与此相反,喉罩 SI 组使用喉部将吸气压力限制在约 26 cmH2O(而不是呼吸机提供的 30 cmH2O)。这些不同的反应影响了潮气量,与面罩 SI 组(5.0 毫升/千克,4.4-5.2 IQR)和 ETT SI 组(3.3 毫升/千克,2.6-3.7 IQR)相比,无 SI 面罩 CPAP 组的潮气量更大(8.4 毫升/千克,6.7-9.3 IQR)。不同的生理反应表明,早产羔羊出生时喉部的自发呼吸活动可使呼吸机施加的压力与施加到肺部的压力脱钩,从而导致不可预测的肺部压力和潮气量,而不受呼吸机设置的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of neonatal noninvasive resuscitation strategies on lung mechanics, tracheal pressure, and tidal volume in preterm lambs.

This study investigated the relationship between three respiratory support approaches on lung volume recruitment during the first 2 h of postnatal life in preterm lambs. We estimated changes in lung aeration, measuring respiratory resistance and reactance by oscillometry at 5 Hz. We also measured intratracheal pressure in subsets of lambs. The first main finding is that sustained inflation (SI) applied noninvasively (Mask SI; n = 7) or invasively [endotracheal tube (ETT) SI; n = 6] led to similar rapid lung volume recruitment (∼6 min). In contrast, Mask continuous positive airway pressure (CPAP) without SI (n = 6) resuscitation took longer (∼30-45 min) to reach similar lung volume recruitment. The second main finding is that, in the first 15 min of postnatal life, the Mask CPAP without SI group closed their larynx during custom ventilator-driven expiration, leading to intratracheal positive end-expiratory pressure of ∼17 cmH2O (instead of 8 cmH2O provided by the ventilator). In contrast, the Mask SI group used the larynx to limit inspiratory pressure to ∼26 cmH2O (instead of 30 cmH2O provided by the ventilator). These different responses affected tidal volume, being larger in the Mask CPAP without SI group [8.4 mL/kg; 6.7-9.3 interquartile range (IQR)] compared to the Mask SI (5.0 mL/kg; 4.4-5.2 IQR) and ETT SI groups (3.3 mL/kg; 2.6-3.7 IQR). Distinct physiological responses suggest that spontaneous respiratory activity of the larynx of preterm lambs at birth can uncouple pressure applied by the ventilator to that applied to the lung, leading to unpredictable lung pressure and tidal volume delivery independently from the ventilator settings.NEW & NOTEWORTHY We compared invasive and noninvasive resuscitation on lambs at birth, including or not sustained inflation (SI). Lung volume recruitment was faster in those receiving SI. During noninvasive resuscitation, larynx modulation reduced tracheal pressure from that applied to the mask in lambs receiving SI, while it led to increased auto-positive end-expiratory pressure and very large tidal volumes in lambs not receiving SI. Our results highlight the need for individualizing pressures and monitoring tidal volumes during resuscitation at birth.

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来源期刊
CiteScore
9.20
自引率
4.10%
发文量
146
审稿时长
2 months
期刊介绍: The American Journal of Physiology-Lung Cellular and Molecular Physiology publishes original research covering the broad scope of molecular, cellular, and integrative aspects of normal and abnormal function of cells and components of the respiratory system. Areas of interest include conducting airways, pulmonary circulation, lung endothelial and epithelial cells, the pleura, neuroendocrine and immunologic cells in the lung, neural cells involved in control of breathing, and cells of the diaphragm and thoracic muscles. The processes to be covered in the Journal include gas-exchange, metabolic control at the cellular level, intracellular signaling, gene expression, genomics, macromolecules and their turnover, cell-cell and cell-matrix interactions, cell motility, secretory mechanisms, membrane function, surfactant, matrix components, mucus and lining materials, lung defenses, macrophage function, transport of salt, water and protein, development and differentiation of the respiratory system, and response to the environment.
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