在一个实验模型中，在肺复张和呼气末正压滴定过程中监测死腔。

Monitoring dead space during recruitment and PEEP titration in an experimental model.

作者信息

Tusman Gerardo, Suarez-Sipmann Fernando, Böhm Stephan H, Pech Tanja, Reissmann Hajo, Meschino Gustavo, Scandurra Adriana, Hedenstierna Göran

机构信息

Department of Anesthesiology, Hospital Privado de Comunidad, Mar del Plata, Argentina.

出版信息

Intensive Care Med. 2006 Nov;32(11):1863-71. doi: 10.1007/s00134-006-0371-7. Epub 2006 Sep 19.

DOI:10.1007/s00134-006-0371-7

PMID:17047925

Abstract

OBJECTIVE

To test the usefulness of dead space for determining open-lung PEEP, the lowest PEEP that prevents lung collapse after a lung recruitment maneuver.

DESIGN

Prospective animal study.

SETTING

Department of Clinical Physiology, University of Uppsala, Sweden.

SUBJECTS

Eight lung-lavaged pigs.

INTERVENTIONS

Animals were ventilated using constant flow mode with VT of 6ml/kg, respiratory rate of 30bpm, inspiratory-to-expiratory ratio of 1:2, and FiO(2) of 1. Baseline measurements were performed at 6cmH(2)O of PEEP. PEEP was increased in steps of 6cmH(2)O from 6 to 24cmH(2)O. Recruitment maneuver was achieved within 2min at pressure levels of 60/30cmH(2)O for Peak/PEEP. PEEP was decreased from 24 to 6cmH(2)O in steps of 2cmH(2)O and then to 0cmH(2)O. Each PEEP step was maintained for 10min.

MEASUREMENTS AND RESULTS

Alveolar dead space (VD(alv)), the ratio of alveolar dead space to alveolar tidal volume (VD(alv)/VT(alv)), and the arterial to end-tidal PCO(2) difference (Pa-ET: CO(2)) showed a good correlation with PaO(2), normally aerated areas, and non-aerated CT areas in all animals (minimum-maximum r(2)=0.83-0.99; p<0.01). Lung collapse (non-aerated tissue>5%) started at 12[Symbol: see text]cmH(2)O PEEP; hence, open-lung PEEP was established at 14cmH(2)O. The receiver operating characteristics curve demonstrated a high specificity and sensitivity of VD(alv) (0.89 and 0.90), VD(alv)/VT(alv) (0.82 and 1.00), and Pa-ET: CO(2) (0.93 and 0.95) for detecting lung collapse.

CONCLUSIONS

Monitoring of dead space was useful for detecting lung collapse and for establishing open-lung PEEP after a recruitment maneuver.

摘要

目的

测试无效腔在确定开放肺呼气末正压（PEEP）（即肺复张操作后防止肺萎陷的最低PEEP）方面的作用。

设计

前瞻性动物研究。

地点

瑞典乌普萨拉大学临床生理系。

对象

八只肺灌洗猪。

干预措施

动物采用恒流模式通气，潮气量（VT）为6ml/kg，呼吸频率为30次/分钟，吸呼比为1:2，吸入氧分数（FiO₂）为1。在PEEP为6cmH₂O时进行基线测量。PEEP从6cmH₂O以6cmH₂O的步长增加至24cmH₂O。在峰压/PEEP为60/30cmH₂O的压力水平下2分钟内完成肺复张操作。PEEP从24cmH₂O以2cmH₂O的步长降至6cmH₂O，然后降至0cmH₂O。每个PEEP水平维持10分钟。

测量与结果

肺泡无效腔（VD(alv)）、肺泡无效腔与肺泡潮气量之比（VD(alv)/VT(alv)）以及动脉血与呼气末二氧化碳分压差（Pa - ET:CO₂）与所有动物的动脉血氧分压（PaO₂）、正常通气区域和未通气的CT区域均具有良好的相关性（最小 - 最大r² = 0.83 - 0.99；p < 0.01）。肺萎陷（未通气组织>5%）在PEEP为12[符号：见正文]cmH₂O时开始；因此，开放肺PEEP设定为14cmH₂O。受试者工作特征曲线显示VD(alv)（0.89和0.90）、VD(alv)/VT(alv)（0.82和1.00）以及Pa - ET:CO₂（0.93和0.95）在检测肺萎陷方面具有高特异性和敏感性。

结论

监测无效腔有助于检测肺萎陷并在肺复张操作后确定开放肺PEEP。

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本文引用的文献

Lung function studies; the respiratory dead space.肺功能研究；呼吸死腔

Am J Physiol. 1948 Sep 1;154(3):405-16. doi: 10.1152/ajplegacy.1948.154.3.405.

Year in review in intensive care medicine. 2005. I. Acute respiratory failure and acute lung injury, ventilation, hemodynamics, education, renal failure.2005年重症医学年度回顾。一、急性呼吸衰竭与急性肺损伤、通气、血流动力学、教育、肾衰竭。

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Suctioning through a double-lumen endotracheal tube helps to prevent alveolar collapse and to preserve ventilation.通过双腔气管导管进行吸痰有助于防止肺泡塌陷并维持通气。

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在一个实验模型中，在肺复张和呼气末正压滴定过程中监测死腔。

Monitoring dead space during recruitment and PEEP titration in an experimental model.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

SETTING

SUBJECTS

INTERVENTIONS

MEASUREMENTS AND RESULTS

CONCLUSIONS

目的

设计

地点

对象

干预措施

测量与结果

结论

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