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全氟碳化物诱导的停搏期低温对窒息性心跳骤停猪模型的存活率没有改善作用。

Perfluorocarbon induced intra-arrest hypothermia does not improve survival in a swine model of asphyxial cardiac arrest.

机构信息

The Cardiovascular Center, Carver College of Medicine, University of Iowa, Iowa City, IA 52242, United States.

出版信息

Resuscitation. 2010 Mar;81(3):353-8. doi: 10.1016/j.resuscitation.2009.11.018. Epub 2009 Dec 31.

DOI:10.1016/j.resuscitation.2009.11.018
PMID:20044200
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2827481/
Abstract

BACKGROUND

Pulseless electrical activity is an important cause of cardiac arrest. Our purpose was to determine if induction of hypothermia with a cold perfluorocarbon-based total liquid ventilation (TLV) system would improve resuscitation success in a swine model of asphyxial cardiac arrest/PEA.

METHODS

Twenty swine were randomly assigned to control (C, no ventilation, n=11) or TLV with pre-cooled PFC (n=9) groups. Asphyxia was induced by insertion of a stopper into the endotracheal tube, and continued in both groups until loss of aortic pulsations (LOAP) was reached, defined as a pulse pressure less than 2mmHg. The TLV animals underwent asphyxial arrest for an additional 2min after LOAP, followed by 3min of hypothermia, prior to starting CPR. The C animals underwent 5min of asphyxia beyond LOAP. Both groups then underwent CPR for at least 10min. The endpoint was the resumption of spontaneous circulation maintained for 10min.

RESULTS

Seven of 9 animals achieved resumption of spontaneous circulation (ROSC) in the TLV group vs. 5 of 11 in the C group (p=0.2). The mean pulmonary arterial temperature was lower in total liquid ventilation animals starting 4min after induction of hypothermia (TLV 36.3+/-0.2 degrees C vs. C 38.1+/-0.2 degrees C, p<0.0001). Arterial P(O)(2) was higher in total liquid ventilation animals at 2.5min of CPR (TLV 76+/-12mmHg vs. C 44+/-2mmHg; p=0.03).

CONCLUSION

Induction of moderate hypothermia using perfluorocarbon-based total liquid ventilation did not improve ROSC success in this model of asphyxial cardiac arrest.

摘要

背景

无脉性电活动是心搏骤停的一个重要原因。我们的目的是确定在窒息性心脏骤停/电机械分离(PEA)的猪模型中,使用冷的全氟化碳基液体通气(TLV)系统诱导低温是否会提高复苏成功率。

方法

20 头猪被随机分为对照组(C 组,无通气,n=11)或 TLV 加预冷 PFC 组(n=9)。通过将塞子插入气管内导管来诱导窒息,两组均继续窒息,直至主动脉搏动消失(LOAP),定义为脉压小于 2mmHg。TLV 动物在 LOAP 后再进行 2 分钟的窒息性停搏,随后进行 3 分钟的低温,然后开始心肺复苏。C 组在 LOAP 后再进行 5 分钟的窒息。两组随后均进行至少 10 分钟的心肺复苏。终点是自发循环恢复并维持 10 分钟。

结果

TLV 组有 9 头动物中的 7 头(77.7%)恢复自发循环(ROSC),而 C 组有 11 头动物中的 5 头(45.5%)(p=0.2)。低温诱导 4 分钟后,TLV 动物的肺动脉温度更低(TLV 36.3+/-0.2°C 与 C 组 38.1+/-0.2°C,p<0.0001)。CPR 2.5 分钟时,TLV 动物的动脉血氧分压(P[O]2)更高(TLV 76+/-12mmHg 与 C 组 44+/-2mmHg;p=0.03)。

结论

在这种窒息性心脏骤停模型中,使用全氟化碳基液体通气诱导中度低温并未提高 ROSC 成功率。

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Intra-arrest hypothermia during cardiac arrest: a systematic review.心脏骤停期间的复苏期低温治疗:一项系统综述。
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