Department of Pediatrics, Akershus University Hospital, Lørenskog, Norway.
Neonatology. 2011;99(2):153-62. doi: 10.1159/000302718. Epub 2010 Sep 11.
When 30 s of initial positive pressure ventilation fails to stabilize the heart rate (HR) of newborns in the delivery room, the International Liaison Committee on Resuscitation guidelines recommend initiation of cardiac compressions. However, it may take longer than 30 s to establish effective pulmonary gas exchange. Whether a longer period of initial ventilation to reverse asphyxia would result in less need for cardiac compressions is unknown.
Our purpose was to investigate the effect of three different initial ventilation intervals prior to initiation of cardiac compressions on hemodynamic parameters, arterial blood gases, oxygen saturations and markers of inflammation and hypoxic damage in a piglet model of asystole due to asphyxia.
Noroc piglets were anesthetized and mechanically ventilated. Progressive asphyxia was induced until asystole occurred. Randomization was made to ventilation with 21% O(2) for (1) 30 s (n = 16), (2) 1 min (n = 16), or (3) 1.5 min (n = 8) before initiation of cardiac compressions. Return of spontaneous circulation (ROSC) was defined as HR ≥100 min(-1).
Piglets initially ventilated for 30 s and 1 and 1.5 min achieved ROSC in a median of 150 (interquartile range 115-180),163 (124-177) and 282 (199-364) s, respectively. p value for group 1 versus group 2 was 0.51 and <0.001 for group 1 versus group 3. There were no differences in temporal changes in oxygen saturations, mean arterial blood pressure, HR, pH, pCO(2), interleukin-1β or lactate/pyruvate ratios between groups.
Although an additional 30 s to ensure effective ventilation does not impair the speed or success in achieving ROSC, delaying circulatory support for as long as 1.5 min of initial ventilation may be harmful.
当 30 秒的初始正压通气未能稳定产房内新生儿的心率(HR)时,国际复苏联合会指南建议开始心脏按压。然而,建立有效的肺气体交换可能需要超过 30 秒的时间。在窒息的小猪模型中,更长时间的初始通气以逆转窒息是否会导致更少的心脏按压需求尚不清楚。
我们的目的是研究在开始心脏按压之前,不同初始通气间隔对因窒息导致停搏的小猪模型的血流动力学参数、动脉血气、氧饱和度以及炎症和缺氧损伤标志物的影响。
用麻醉和机械通气的挪威猪。逐渐诱导窒息,直到发生停搏。随机分为 21% O(2)通气 30 s(n = 16)、1 min(n = 16)或 1.5 min(n = 8),然后开始心脏按压。自主循环恢复(ROSC)定义为 HR≥100 min(-1)。
最初通气 30 s、1 min 和 1.5 min 的小猪在中位数为 150(115-180)、163(124-177)和 282(199-364)秒时实现了 ROSC。组 1 与组 2 之间的 p 值为 0.51,组 1 与组 3 之间的 p 值<0.001。各组间氧饱和度、平均动脉压、心率、pH、pCO(2)、白细胞介素-1β或乳酸/丙酮酸比值的时间变化均无差异。
虽然额外的 30 秒以确保有效的通气不会损害实现 ROSC 的速度或成功率,但延迟初始通气长达 1.5 分钟的循环支持可能有害。
