识别肺开放状态下呼气末正压(PEEP)方法的比较
A comparison of methods to identify open-lung PEEP.
作者信息
Caramez Maria Paula, Kacmarek Robert M, Helmy Mohamed, Miyoshi Eriko, Malhotra Atul, Amato Marcelo B P, Harris R Scott
机构信息
Department of Anesthesia and Critical Care, and Respiratory Care, Massachusetts General Hospital, Boston, MA, USA.
出版信息
Intensive Care Med. 2009 Apr;35(4):740-7. doi: 10.1007/s00134-009-1412-9. Epub 2009 Jan 31.
PURPOSE
Many methods exist in the literature for identifying PEEP to set in ARDS patients following a lung recruitment maneuver (RM). We compared ten published parameters for setting PEEP following a RM.
METHODS
Lung injury was induced by bilateral lung lavage in 14 female Dorset sheep, yielding a PaO(2) 100-150 mmHg at F(I)O(2) 1.0 and PEEP 5 cmH(2)O. A quasi-static P-V curve was then performed using the supersyringe method; PEEP was set to 20 cmH(2)O and a RM performed with pressure control ventilation (inspiratory pressure set to 40-50 cmH(2)O), until PaO(2) + PaCO(2) > 400 mmHg. Following the RM, a decremental PEEP trial was performed. The PEEP was decreased in 1 cmH(2)O steps every 5 min until 15 cmH(2)O was reached. Parameters measured during the decremental PEEP trial were compared with parameters obtained from the P-V curve.
RESULTS
For setting PEEP, maximum dynamic tidal respiratory compliance, maximum PaO(2), maximum PaO(2) + PaCO(2), and minimum shunt calculated during the decremental PEEP trial, and the lower Pflex and point of maximal compliance increase on the inflation limb of the P-V curve (Pmci,i) were statistically indistinguishable. The PEEP value obtained using the deflation upper Pflex and the point of maximal compliance decrease on the deflation limb were significantly higher, and the true inflection point on the inflation limb and minimum PaCO(2) were significantly lower than the other variables.
CONCLUSION
In this animal model of ARDS, dynamic tidal respiratory compliance, maximum PaO(2), maximum PaO(2) + PaCO(2), minimum shunt, inflation lower Pflex and Pmci,i yield similar values for PEEP following a recruitment maneuver.
目的
文献中存在多种用于确定急性呼吸窘迫综合征(ARDS)患者在肺复张操作(RM)后设置呼气末正压(PEEP)的方法。我们比较了RM后设置PEEP的十种已发表参数。
方法
对14只雌性多塞特绵羊进行双侧肺灌洗诱导肺损伤,在吸入氧分数(F(I)O(2))为1.0和PEEP为5 cmH₂O时,动脉血氧分压(PaO₂)为100 - 150 mmHg。然后使用超级注射器法进行准静态压力-容积(P-V)曲线测定;将PEEP设置为20 cmH₂O,并采用压力控制通气进行RM(吸气压力设置为40 - 50 cmH₂O),直至PaO₂ + 动脉血二氧化碳分压(PaCO₂)> 400 mmHg。RM后,进行递减PEEP试验。每5分钟将PEEP以1 cmH₂O的步长降低,直至达到15 cmH₂O。将递减PEEP试验期间测量的参数与从P-V曲线获得的参数进行比较。
结果
对于设置PEEP,在递减PEEP试验期间计算的最大动态潮气量呼吸顺应性、最大PaO₂、最大PaO₂ + PaCO₂和最小分流,以及P-V曲线充气支上较低的压力-容积拐点(Pflex)和最大顺应性增加点(Pmci,i)在统计学上无显著差异。使用放气时较高的Pflex和放气支上最大顺应性降低点获得的PEEP值显著更高,而充气支上的真正拐点和最小PaCO₂显著低于其他变量。
结论
在这个ARDS动物模型中,动态潮气量呼吸顺应性、最大PaO₂、最大PaO₂ + PaCO₂、最小分流、充气时较低的Pflex和Pmci,i在肺复张操作后产生相似的PEEP值。
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