血压对合并血管损伤的近致死性出血模型中出血量和生存率的影响。

Effect of blood pressure on hemorrhage volume and survival in a near-fatal hemorrhage model incorporating a vascular injury.

作者信息

Stern S A, Dronen S C, Birrer P, Wang X

机构信息

Department of Emergency Medicine, University of Cincinnati College of Medicine, Ohio.

出版信息

Ann Emerg Med. 1993 Feb;22(2):155-63. doi: 10.1016/s0196-0644(05)80195-7.

DOI:10.1016/s0196-0644(05)80195-7

PMID:8427424

Abstract

STUDY HYPOTHESIS

In a model of near-fatal hemorrhage that incorporates a vascular injury, stepwise increases in blood pressure associated with aggressive crystalloid resuscitation will result in increased hemorrhage volume and mortality.

DESIGN

This study used a swine model of potentially lethal hemorrhage in the presence of a vascular lesion to compare the effects of resuscitation with mean arterial pressures of 40, 60, and 80 mm Hg. Twenty-seven fully instrumented immature swine (14.8 to 20 kg), each with a surgical-steel aortotomy wire in place, were bled continuously from a femoral artery catheter to a mean arterial pressure of 30 mm Hg. At that point the aortotomy wire was pulled, producing a 4-mm aortic tear and uncontrolled intraperitoneal hemorrhage. When the animal's pulse pressure reached 5 mm Hg, the femoral artery hemorrhage was discontinued and resuscitation was begun.

INTERVENTIONS

Saline infusion was begun at 6 mL/kg/min and continued as needed to maintain the following desired endpoints: group 1 (nine) to a mean arterial pressure of 40 mm Hg, group 2 (nine) to a mean arterial pressure of 60 mm Hg, and group 3 (nine) to a mean arterial pressure of 80 mm Hg. After 30 minutes or a total saline infusion of 90 mL/kg, the resuscitation fluid was changed to shed blood infused at 2 mL/kg/min as needed to maintain the desired mean arterial pressure or to a maximum volume of 24 mL/kg. Animals were observed for 60 minutes or until death.

MEASUREMENTS AND MAIN RESULTS

Data were compared using repeated-measures analysis of variance with a post hoc Tukey-Kramer, Fisher's exact test, and Kruskal-Wallis. Mortality was significantly greater in group 3 (78%) compared with either group 1 (11%; P = .008) or group 2 (22%; P = .028). Mean survival times were significantly shorter in group 3 (44 +/- 12 minutes) compared with either group 1 (58 +/- 6 minutes; P = .007) or group 2 (59 +/- 3 minutes; P = .006). The average intraperitoneal hemorrhage volumes were 13 +/- 14 mL/kg, 20 +/- 25 mL/kg, and 46 +/- 11 mL/kg for groups 1, 2, and 3, respectively (group 1 versus 2, P = .425; group 1 versus 3, P < .001; group 2 versus 3, P = .014). Group 2 animals demonstrated significantly greater oxygen deliveries compared with groups 1 and 3.

CONCLUSION

In a model of near-fatal hemorrhage with a vascular injury, attempts to restore blood pressure with crystalloid result in increased hemorrhage volume and markedly higher mortality.

摘要

研究假设

在一个合并血管损伤的近乎致命性出血模型中，积极的晶体液复苏使血压逐步升高会导致出血量增加和死亡率上升。

设计

本研究使用了一个存在血管病变的猪潜在致命性出血模型，以比较平均动脉压维持在40、60和80 mmHg时的复苏效果。27只完全插管的未成熟猪（体重14.8至20千克），每只猪都放置了一根外科钢丝主动脉切开线，通过股动脉导管持续放血至平均动脉压为30 mmHg。此时，拉动主动脉切开线，造成4毫米的主动脉撕裂和腹腔内出血无法控制。当动物的脉压达到5 mmHg时，停止股动脉出血并开始复苏。

干预措施

以6 mL/kg/min的速度开始输注生理盐水，并根据需要持续输注以维持以下目标终点：第1组（9只）维持平均动脉压为40 mmHg，第2组（(9只）维持平均动脉压为60 mmHg，第3组（9只）维持平均动脉压为80 mmHg。30分钟后或生理盐水总输注量达到90 mL/kg后，将复苏液改为根据需要以2 mL/kg/min的速度输注的回收血或至最大量24 mL/kg。观察动物60分钟或直至死亡。

测量指标和主要结果

使用重复测量方差分析、事后Tukey-Kramer检验、Fisher精确检验和Kruskal-Wallis检验对数据进行比较。第3组的死亡率（78%）显著高于第1组（11%；P = 0.008）或第2组（22%；P = 0.028）。第3组的平均生存时间（44 ± 12分钟）显著短于第1组（58 ± 6分钟；P = 0.007）或第2组（59 ± 3分钟；P = 0.006）。第l、2和3组的平均腹腔内出血量分别为13 ± 1（4 mL/kg、20 ± 25 mL/kg和46 ± 11 mL/kg（第1组与第2组比较，P = 0.425；第1组与第3组比较，P < 0.001；第2组与第3组比较，P = 0.014）。第2组动物的氧输送量显著高于第1组和第3组。