二氧化碳气腹对出血动物血流动力学的影响。

The effects of CO2 pneumoperitoneum on hemodynamics in hemorrhaged animals.

作者信息

Ho H S, Saunders C J, Corso F A, Wolfe B M

机构信息

Department of Surgery, University of California, Davis, Sacramento 95817.

出版信息

Surgery. 1993 Aug;114(2):381-7; discussion 387-8.

PMID:8342139

Abstract

BACKGROUND

Carbon dioxide (CO2), the primary gas currently used for pneumoperitoneum, has been known to cause systemic effects on acid-base balance and hemodynamic stability. We studied the hemodynamic effects of CO2 pneumoperitoneum in a hemorrhagic shock model to assess the safety of laparoscopic procedures in acute trauma patients.

METHODS

After 1 hour of baseline, 32 anesthetized adult pigs were randomized into four groups. Group 1 animals had no hemorrhage, serving as a control group. Group 2 animals had a mild hemorrhage of 10 ml/kg/hr. Group 3 animals had a moderate hemorrhage of 20 ml/kg/hr. Group 4 animals had a moderate hemorrhage but were resuscitated with 40 ml/kg of lactated Ringer's solution. All animals were then insufflated to an intraabdominal pressure of 15 mm Hg with CO2 gas for 1 hour. The abdomen was then decompressed, and the animals were observed for another hour. All animals survived hemorrhage. One death each occurred in moderate hemorrhage groups, both near the end of CO2 pneumoperitoneum. These animals were not included in statistical analysis.

RESULTS

In euvolemic animals, CO2 pneumoperitoneum induced hypercapnia (from 34 +/- 1 mm Hg to 48 +/- 1 mm Hg), acidemia (from 7.45 +/- 0.02 to 7.36 +/- 0.02), and a 20% reduction in stroke volume. Mild hemorrhage and CO2 insufflation resulted in a similar degree of acidemia (7.35 +/- 0.01), but moderate hemorrhage and CO2 insufflation led to more severe acidemia (7.26 +/- 0.02). Fluid resuscitation failed to prevent this severe fall in pH (7.30 +/- 0.03) for group 4. PaCO2 was not affected by hemorrhage, but CO2 pneumoperitoneum induced significant hypercapnia in all groups, ranging from 48 +/- 1 mm Hg for euvolemic animals to 52 +/- 1 mm Hg for moderate hemorrhage animals. Stroke volume declined as a function of blood loss, and it was further depressed by CO2 insufflation, to as low as 75% of baseline in mild hemorrhage and 55% of baseline in moderate hemorrhage. Both stroke volume and cardiac index initially responded to large-volume fluid replacement after moderate hemorrhage but quickly decreased to levels comparable to those of unresuscitated animals when CO2 pneumoperitoneum was created.

CONCLUSIONS

Intraperitoneal insufflation with CO2 for diagnostic laparoscopy may be hazardous in acute hypovolemic trauma patients.

摘要

背景

二氧化碳（CO₂）是目前用于气腹的主要气体，已知其会对酸碱平衡和血流动力学稳定性产生全身影响。我们在失血性休克模型中研究了CO₂气腹的血流动力学效应，以评估急性创伤患者腹腔镜手术的安全性。

方法

在1小时基线期后，将32只麻醉的成年猪随机分为四组。第1组动物未出血，作为对照组。第2组动物以10 ml/kg/小时的速度进行轻度出血。第3组动物以20 ml/kg/小时的速度进行中度出血。第4组动物进行中度出血，但用40 ml/kg的乳酸林格氏液进行复苏。然后所有动物均用CO₂气体将腹腔内压力充至15 mmHg并维持1小时。然后解除气腹，再观察动物1小时。所有动物均在出血后存活。中度出血组各有1只动物死亡，均在CO₂气腹接近结束时。这些动物未纳入统计分析。

结果

在血容量正常的动物中，CO₂气腹导致高碳酸血症（从34±1 mmHg升至48±1 mmHg）、酸血症（从7.45±0.02降至7.36±0.02），且心输出量减少20%。轻度出血并注入CO₂导致相似程度的酸血症（7.35±0.01），但中度出血并注入CO₂导致更严重的酸血症（7.26±0.02）。第4组的液体复苏未能防止pH值严重下降（7.30±0.03）。PaCO₂不受出血影响，但CO₂气腹在所有组中均导致显著的高碳酸血症，血容量正常的动物为48±1 mmHg，中度出血的动物为52±1 mmHg。心输出量随失血量而下降，并且因注入CO₂而进一步降低，在轻度出血时降至基线的75%，在中度出血时降至基线的55%。中度出血后，心输出量和心脏指数最初对大量液体补充有反应，但在建立CO₂气腹后迅速降至与未复苏动物相当的水平。