1 INSERM, UMRS_1166-ICAN, Institute of Cardiometabolism and Nutrition, Université Pierre et Marie Curie Univ Paris 06, Paris, France; and.
2 Medical Intensive Care Unit and.
Am J Respir Crit Care Med. 2017 Aug 15;196(4):447-457. doi: 10.1164/rccm.201605-1055OC.
Optimal positive end-expiratory pressure (PEEP) is unknown in patients with severe acute respiratory distress syndrome (ARDS) on extracorporeal membrane oxygenation receiving mechanical ventilation with very low tidal volume.
To evaluate the ability of electrical impedance tomography (EIT) to monitor a PEEP trial and to derive from EIT the best compromise PEEP in this setting.
A decremental PEEP trial (20-0 cm HO) in 5 cm HO steps was monitored by EIT, with lung images divided into four ventral-to-dorsal horizontal regions of interest. The EIT-based PEEP providing the best compromise between overdistention and collapsed zones was arbitrarily defined as the lowest pressure able to limit EIT-assessed collapse to less than or equal to 15% with the least overdistention. Driving pressure was maintained constant at 14 cm HO in pressure controlled mode.
Tidal volume, static compliance, tidal impedance variation, end-expiratory lung impedance, and their respective regional distributions were visualized at each PEEP level in 15 patients on extracorporeal membrane oxygenation. Low tidal volume (2.9-4 ml/kg ideal body weight) and poor compliance (12.1-18.7 ml/cm HO) were noted, with significantly higher tidal volume and compliance at PEEP and PEEP than PEEP. EIT-based best compromise PEEPs were 15, 10, and 5 cm HO for seven, six, and two patients, respectively, whereas PEEP and PEEP were never selected.
The broad variability in optimal PEEP observed in these patients with severe ARDS under extracorporeal membrane oxygenation reinforces the need for personalized titration of ventilation settings. EIT may be an interesting noninvasive bedside tool to provide real-time monitoring of the PEEP impact in these patients.
在接受低潮气量机械通气的体外膜肺氧合严重急性呼吸窘迫综合征(ARDS)患者中,最佳呼气末正压(PEEP)尚不清楚。
评估电阻抗断层成像(EIT)监测 PEEP 试验的能力,并从 EIT 中得出在此设置下最佳的妥协 PEEP。
通过 EIT 监测递减 PEEP 试验(20-0 cm HO,每 5 cm HO 一步),将肺图像分为四个从腹侧向背侧的水平感兴趣区。EIT 为基础的 PEEP 提供了过度膨胀和塌陷区之间的最佳折衷方案,被任意定义为能够将 EIT 评估的塌陷限制在 15%以下的最低压力,同时最大限度地减少过度膨胀。在压力控制模式下,驱动压力保持在 14 cm HO 不变。
在 15 名接受体外膜肺氧合的患者中,在每个 PEEP 水平下,均可视化了潮气量、静态顺应性、潮气量阻抗变化、呼气末肺阻抗及其各自的区域分布。注意到低潮气量(2.9-4 ml/kg 理想体重)和低顺应性(12.1-18.7 ml/cm HO),并且在 PEEP 和 PEEP 时潮气量和顺应性显著高于 PEEP。根据 EIT,最佳妥协 PEEPs 分别为 15、10 和 5 cm HO,分别适用于 7、6 和 2 名患者,而 PEEP 和 PEEP 从未被选择。
在接受体外膜肺氧合的严重 ARDS 患者中观察到的最佳 PEEP 存在广泛的变异性,这进一步强调了需要个体化调整通气设置。EIT 可能是一种有趣的非侵入性床边工具,可以实时监测这些患者的 PEEP 影响。
