缓慢适度压力复张手法可将负面循环和肺力学副作用降至最低：使用电阻抗断层扫描评估复张手法

Slow moderate pressure recruitment maneuver minimizes negative circulatory and lung mechanic side effects: evaluation of recruitment maneuvers using electric impedance tomography.

作者信息

Odenstedt Helena, Lindgren Sophie, Olegård Cecilia, Erlandsson Karin, Lethvall Sven, Aneman Anders, Stenqvist Ola, Lundin Stefan

机构信息

Department of Anesthesia and Intensive Care, Sahlgrenska University Hospital, 41345, Gothenburg, Sweden.

出版信息

Intensive Care Med. 2005 Dec;31(12):1706-14. doi: 10.1007/s00134-005-2799-6. Epub 2005 Sep 22.

DOI:10.1007/s00134-005-2799-6

PMID:16177920

Abstract

OBJECTIVE

To evaluate the efficacy of different lung recruitment maneuvers using electric impedance tomography.

DESIGN AND SETTING

Experimental study in animal model of acute lung injury in an animal research laboratory.

SUBJECTS

Fourteen pigs with saline lavage induced lung injury.

INTERVENTIONS

Lung volume, regional ventilation distribution, gas exchange, and hemodynamics were monitored during three different recruitment procedures: (a) vital capacity maneuver to an inspiratory pressure of 40 cmH2O (ViCM), (b) pressure-controlled recruitment maneuver with peak pressure 40 and PEEP 20 cmH2O, both maneuvers repeated three times for 30 s (PCRM), and (c) a slow recruitment with PEEP elevation to 15 cmH2O with end inspiratory pauses for 7 s twice per minute over 15 min (SLRM).

MEASUREMENTS AND RESULTS

Improvement in lung volume, compliance, and gas exchange were similar in all three procedures 15 min after recruitment. Ventilation in dorsal regions of the lungs increased by 60% as a result of increased regional compliance. During PCRM compliance decreased by 50% in the ventral region. Cardiac output decreased by 63+/-4% during ViCM, 44+/-2% during PCRM, and 21+/-3% during SLRM.

CONCLUSIONS

In a lavage model of acute lung injury alveolar recruitment can be achieved with a slow lower pressure recruitment maneuver with less circulatory depression and negative lung mechanic side effects than with higher pressure recruitment maneuvers. With electric impedance tomography it was possible to monitor lung volume changes continuously.

摘要

目的

采用电阻抗断层成像技术评估不同肺复张手法的疗效。

设计与地点

在动物研究实验室进行的急性肺损伤动物模型实验研究。

对象

14只经盐水灌洗诱导肺损伤的猪。

干预措施

在三种不同的复张程序中监测肺容积、区域通气分布、气体交换和血流动力学：(a) 将肺活量手法应用至吸气压力40 cmH₂O（肺活量手法，ViCM）；(b) 压力控制复张手法，峰值压力40 cmH₂O，呼气末正压（PEEP）20 cmH₂O，两种手法均重复三次，每次30秒（压力控制复张手法PCRM）；(c) 缓慢复张，将PEEP升高至15 cmH₂O，吸气末暂停7秒，每分钟两次，持续15分钟（缓慢复张手法，SLRM）。

测量与结果

复张后15分钟，所有三种程序中肺容积、顺应性和气体交换的改善情况相似。由于区域顺应性增加，肺背侧区域的通气增加了60%。在PCRM期间，腹侧区域的顺应性下降了50%。在ViCM期间心输出量下降了63±4%，在PCRM期间下降了44±2%，在SLRM期间下降了21±3%。

结论

在急性肺损伤灌洗模型中，与较高压力复张手法相比，采用缓慢的较低压力复张手法可实现肺泡复张，且循环抑制和肺力学负面效应较小。通过电阻抗断层成像技术能够持续监测肺容积变化。

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缓慢适度压力复张手法可将负面循环和肺力学副作用降至最低：使用电阻抗断层扫描评估复张手法

Slow moderate pressure recruitment maneuver minimizes negative circulatory and lung mechanic side effects: evaluation of recruitment maneuvers using electric impedance tomography.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN AND SETTING

SUBJECTS

INTERVENTIONS

MEASUREMENTS AND RESULTS

CONCLUSIONS

目的

设计与地点

对象

干预措施

测量与结果

结论

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