在乙酰甲胆碱诱导的支气管痉挛期间，气管内气体吹入可提高通气效率。

Tracheal gas insufflation improves ventilatory efficiency during metacholine-induced bronchospasm.

作者信息

Miro A M, Hoffman L A, Tasota F J, Sigler D W, Gowski D T, Lutz J, Zullo T, Pinsky M R

机构信息

Department of Anesthesiology and Critical Care Medicine, School of Medicine, Pittsburgh, PA 15261, USA.

出版信息

J Crit Care. 1997 Mar;12(1):13-21. doi: 10.1016/s0883-9441(97)90021-6.

DOI:10.1016/s0883-9441(97)90021-6

PMID:9075060

Abstract

INTRODUCTION

Barotrauma and cardiovascular insufficiency are frequently encountered problems in patients with acute bronchospastic disease who require mechanical ventilation. Permissive hypercapnia is a recognized strategy for minimizing these adverse effects; however, it has potential risks. Tracheal gas insufflation (TGI) has been shown to increase carbon dioxide elimination efficiency and thus could permit mechanical ventilation at lower peak airway pressures without inducing hypercapnia. However, caution exists as to the impact of TGI on lung volumes, given that expiratory flow limitation is a hallmark of bronchospastic disease.

PURPOSE

To examine these issues, we studied ventilatory and hemodynamic effects of continuous TGI as an adjunct to mechanical ventilation before and after methacholine-induced bronchospasm.

MATERIALS AND METHODS

Ten anesthetized, paralyzed dogs were ventilated on volume-controlled mechanical ventilation during administration of continuous TGI (0, 2, 6, and 10 L/min) while total inspired minute ventilation (ventilator-derived minute ventilation plus TGI) was kept constant. In an additional step, with TGI flow of 10 L/min, total inspired minute ventilation was decreased by 30%.

RESULTS

PaCO2 decreased (44 +/- 7 mm Hg at zero flow to 34 +/- 7 mm Hg at 6 L/min and 31 +/- 6 mm Hg at 10 L/min, respectively, P < .05), as did the dead space to tidal volume ratio at TGI of 6 and 10 L/min compared with zero flow. There were no significant changes in end-expiratory transpulmonary pressure, mean arterial pressure, or cardiac output. During the highest TGI flow (10 L/min), with a 30% reduction of total inspired minute ventilation, both PaCO2 and peak airway pressure remained less than during zero flow conditions.

CONCLUSION

We conclude that TGI increases carbon dioxide elimination efficiency during constant and decreased minute ventilation conditions without any evidence of hyperinflation or hemodynamic instability during methacholine-induced bronchospasm.

摘要

引言

气压伤和心血管功能不全是需要机械通气的急性支气管痉挛性疾病患者中经常遇到的问题。允许性高碳酸血症是一种公认的将这些不良反应降至最低的策略；然而，它也有潜在风险。气管内吹气（TGI）已被证明可提高二氧化碳清除效率，因此可以在较低的气道峰值压力下进行机械通气而不引起高碳酸血症。然而，鉴于呼气气流受限是支气管痉挛性疾病的一个特征，TGI对肺容积的影响仍需谨慎对待。

目的

为了研究这些问题，我们在乙酰甲胆碱诱导支气管痉挛前后，研究了持续TGI作为机械通气辅助手段的通气和血流动力学效应。

材料与方法

10只麻醉、麻痹的犬在持续TGI（0、2、6和10L/min）给药期间接受容量控制机械通气，同时总吸入分钟通气量（呼吸机提供的分钟通气量加TGI）保持恒定。在另一步骤中，TGI流量为10L/min时，总吸入分钟通气量降低30%。

结果

PaCO2降低（零流量时为44±7mmHg，6L/min时为34±7mmHg，10L/min时为31±6mmHg，P<.05），与零流量相比，TGI为6和10L/min时死腔与潮气量之比也降低。呼气末跨肺压、平均动脉压或心输出量无显著变化。在最高TGI流量（10L/min）时，总吸入分钟通气量降低30%，PaCO2和气道峰值压力均低于零流量条件下的值。