Sanders Arthur B, Kern Karl B, Berg Robert A, Hilwig Ronald W, Heidenrich Joseph, Ewy Gordon A
Sarver Heart Center, the Arizona Emergency Medicine Research Center, Department of Emergency Medicine, University of Arizona, Tucson, USA.
Ann Emerg Med. 2002 Dec;40(6):553-62. doi: 10.1067/mem.2002.129507.
The optimal ratio of chest compressions to ventilations during cardiopulmonary resuscitation (CPR) is unknown. We determine 24-hour survival and neurologic outcome, comparing 4 different chest compression-ventilation CPR ratios in a porcine model of prolonged cardiac arrest and bystander CPR.
Forty swine were instrumented and subjected to 3 minutes of ventricular fibrillation followed by 12 minutes of CPR by using 1 of 4 models of chest compression-ventilation ratios as follows: (1) standard CPR with a ratio of 15:2; (2) CC-CPR, chest compressions only with no ventilations for 12 minutes; (3) 50:5-CPR, CPR with a ratio of 50:5 compressions to ventilations, as advocated by authorities in Great Britain; and (4) 100:2-CPR, 4 minutes of chest compressions only followed by CPR with a ratio of 100:2 compressions to ventilations. CPR was followed by standard advanced cardiac life support, 1 hour of critical care, and 24 hours of observation, followed by a neurologic evaluation.
There were no statistically significant differences in 24-hour survival among the 4 groups (standard CPR, 7/10; CC-CPR, 7/10; 50:5-CPR, 8/10; 100:2-CPR, 9/10). There were significant differences in 24-hour neurologic function, as evaluated by using the swine cerebral performance category scale. The animals receiving 100:2-CPR had significantly better neurologic function at 24 hours than the standard CPR group with a 15:2 ratio (1.5 versus 2.5; P =.007). The 100:2-CPR group also had better neurologic function than the CC-CPR group, which received chest compressions with no ventilations (1.5 versus 2.3; P =.027). Coronary perfusion pressures, aortic pressures, and myocardial and kidney blood flows were not significantly different among the groups. Coronary perfusion pressure as an integrated area under the curve was significantly better in the CC-CPR group than in the standard CPR group (P =.04). Minute ventilation and PaO (2) were significantly lower in the CC-CPR group.
In this experimental model of bystander CPR, the group receiving compressions only for 4 minutes followed by a compression-ventilation ratio of 100:2 achieved better neurologic outcome than the group receiving standard CPR and CC-CPR. Consideration of alternative chest compression-ventilation ratios might be appropriate.
心肺复苏(CPR)期间胸外按压与通气的最佳比例尚不清楚。我们通过比较猪长时间心脏骤停和旁观者CPR模型中4种不同胸外按压与通气比例,来确定24小时生存率和神经功能转归。
40头猪安装监测设备,先经历3分钟室颤,然后采用以下4种胸外按压与通气比例模型之一进行12分钟的CPR:(1)标准CPR,比例为15:2;(2)持续胸外按压CPR(CC-CPR),仅胸外按压12分钟,不进行通气;(3)50:5-CPR,按压与通气比例为50:5,这是英国权威机构所倡导的;(4)100:2-CPR,先仅胸外按压4分钟,然后按压与通气比例为100:2进行CPR。CPR后进行标准的高级心脏生命支持、1小时重症监护及24小时观察,随后进行神经功能评估。
4组24小时生存率无统计学显著差异(标准CPR组,7/10;CC-CPR组,7/10;50:5-CPR组,8/10;100:2-CPR组,9/10)。采用猪脑功能分级量表评估,24小时神经功能有显著差异。接受100:2-CPR的动物在24小时时神经功能显著优于标准CPR比例为15:2的组(1.5对2.5;P = 0.007)。100:2-CPR组的神经功能也优于仅进行胸外按压的CC-CPR组(1.5对2.3;P = 0.027)。各组间冠状动脉灌注压、主动脉压以及心肌和肾脏血流无显著差异。CC-CPR组冠状动脉灌注压作为曲线下面积的综合指标显著优于标准CPR组(P = 0.04)。CC-CPR组的分钟通气量和动脉血氧分压(PaO₂)显著更低。
在这个旁观者CPR实验模型中,先仅按压4分钟然后按压与通气比例为100:2的组,其神经功能转归优于接受标准CPR和CC-CPR的组。考虑采用其他胸外按压与通气比例可能是合适的。
Zotero 插件