啮齿动物与人类之间二氧化碳气腹压力的相关性。

Correlation of CO2 pneumoperitoneal pressures between rodents and humans.

作者信息

Avital Shmuel, Itah Refael, Szomstein Samuel, Rosenthal Raul, Inbar Roye, Sckornik Yehuda, Weinbroum Avi

机构信息

Surgery, Tel-Aviv Sourasky Medical Center, Tel Aviv, Israel.

出版信息

Surg Endosc. 2009 Jan;23(1):50-4. doi: 10.1007/s00464-008-9862-7. Epub 2008 Apr 4.

DOI:10.1007/s00464-008-9862-7

PMID:18389317

Abstract

INTRODUCTION

Many studies have reported on the effects of pneumoperitoneum in a rat model, using a wide range of intra-abdominal pressures. The correlation between pneumoperitoneal pressures in rodents to pressures in humans has not been established. This study evaluates changes in various physiological parameters in different pneumoperitoneum pressures in the rat model with a comparison to known data in humans.

MATERIALS AND METHODS

Three groups of eight Wistar rats each were anesthetized, tracheostomized, and mechanically ventilated with fixed tidal volume and respiratory rate. After a stabilization phase, CO(2) pneumoperitoneum was established to 12, 8, and 5 mmHg in the different groups. Changes in blood pressure, heart rate, peak ventilatory pressure, and end-tidal CO(2) (ETCO(2)) were recorded throughout the experiment.

RESULTS

There were no significant changes in blood pressure and heart rate in all groups. No increase in ETCO(2) was demonstrated following induction of pneumoperitoneum in the 12 and 8 mmHg groups. A statistical significant increase in ETCO(2) occurred only in the 5 mmHg group (39.4 to 41.3 mmHg, p = 0.023). Ventilatory pressures increased after induction of pneumoperitoneum in all groups. The increase reached a maximal level in the 8 and 12 mmHg groups (from 3 to 12 mmHg) and was lower in the 5 mmHg group (from 3 to 7 mmHg)

CONCLUSIONS

The neglected increase in ETCO(2) in pressures > or =8 mmHg, in the rat correlates to high pressures in humans (above 14-20 mmHg) when CO(2) diffusion through the peritoneum declines due to pressure occlusion of peritoneal capillaries. The maximal ventilatory pressures generated in the rat in intra-abdominal pressures > or =8 mmHg correlate to pressures, which are higher than the standard working pressures in humans. Thus, pneumoperitoneal pressures >8 mmHg in the rat do not simulate routine working pressures employed in humans. A pressure of 5 mmHg is optimal in a rat model to simulate laparoscopy in humans.

摘要

引言

许多研究报告了在大鼠模型中使用各种不同腹腔内压力时气腹的影响。啮齿动物气腹压力与人类压力之间的相关性尚未确立。本研究评估大鼠模型中不同气腹压力下各种生理参数的变化，并与人类的已知数据进行比较。

材料与方法

将三组，每组八只Wistar大鼠麻醉、气管切开，并以固定潮气量和呼吸频率进行机械通气。在稳定期后，不同组分别建立12、8和5 mmHg的二氧化碳气腹。在整个实验过程中记录血压、心率、峰值通气压力和呼气末二氧化碳（ETCO₂）的变化。

结果

所有组的血压和心率均无显著变化。在12和8 mmHg组中，气腹诱导后ETCO₂未显示升高。仅在5 mmHg组中ETCO₂出现统计学显著升高（从39.4 mmHg升至41.3 mmHg，p = 0.023）。所有组气腹诱导后通气压力均升高。在8和12 mmHg组中升高达到最大值（从3 mmHg升至12 mmHg），而在5 mmHg组中较低（从3 mmHg升至7 mmHg）。

结论

当二氧化碳通过腹膜的扩散因腹膜毛细血管受压闭塞而下降时，大鼠中≥8 mmHg压力下被忽视的ETCO₂升高与人类的高压（高于14 - 20 mmHg）相关。大鼠腹腔内压力≥8 mmHg时产生的最大通气压力与高于人类标准工作压力的压力相关。因此，大鼠中>8 mmHg的气腹压力不能模拟人类使用的常规工作压力。在大鼠模型中，5 mmHg的压力最适合模拟人类腹腔镜检查。

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啮齿动物与人类之间二氧化碳气腹压力的相关性。

Correlation of CO2 pneumoperitoneal pressures between rodents and humans.

作者信息

机构信息

出版信息

INTRODUCTION

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

引言

材料与方法

结果

结论

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