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Intensive Care Medicine
Published in: Intensive Care Medicine 10/2007

Open Access 01-10-2007 | Brief Report

High positive end-expiratory pressure levels promote bacterial translocation in experimental pneumonia

Authors: Robert A. Lachmann, Anton H. van Kaam, Jack J. Haitsma, Burkhard Lachmann

Published in: Intensive Care Medicine | Issue 10/2007

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Abstract

Objective

A previous study in piglets with experimental pneumonia showed that reducing atelectasis by means of open lung ventilation attenuated bacterial translocation compared to conventional ventilation settings. This study examined the effect of open lung ventilation with higher than necessary positive end-expiratory pressures (PEEP) on bacterial translocation.

Design and setting

Prospective animal study in a university-affiliated research laboratory.

Subjects

Thirty piglets.

Interventions

Animals were surfactant-depleted by whole-lung lavage and infected with group B streptococci. Thereafter the animals were ventilated for 5 h according to either a conventional ventilation strategy, open lung strategy, or open lung/high-PEEP strategy. Blood samples for blood gas analysis and blood bacterial counts were taken every hour. After 5 h of ventilation surviving animals were killed, and lung colony forming units and lung mechanics parameters were determined.

Results

All animals in both open lung groups survived but only 30% of those in the conventional ventilation group. Open lung ventilation resulted in significantly less bacterial translocation than either conventional or high-PEEP ventilation. Lung function in the conventional ventilated group was significantly less than in the two open lung groups.

Conclusions

The lowest level of bacterial translocation was observed during optimal ventilation (open lung) which was achieved by using individually tailored settings. Deviation to either side can be harmful, as shown by the increased bacterial translocation during conventional and high-PEEP ventilation.
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Metadata
Title
High positive end-expiratory pressure levels promote bacterial translocation in experimental pneumonia
Authors
Robert A. Lachmann
Anton H. van Kaam
Jack J. Haitsma
Burkhard Lachmann
Publication date
01-10-2007
Publisher
Springer-Verlag
Published in
Intensive Care Medicine / Issue 10/2007
Print ISSN: 0342-4642
Electronic ISSN: 1432-1238
DOI
https://doi.org/10.1007/s00134-007-0749-1

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