Comment in:
Lung recruitment during small tidal volume ventilation allows minimal positive end-expiratory pressure without augmenting lung injury.
Rimensberger PC, Pristine G, Mullen BM, Cox PN, Slutsky AS.
Department of Critical Care, The Hospital for Sick Children, University of Toronto, Ontario, Canada. peter.rimensberger@hcuge.ch
OBJECTIVES: Ventilation with positive end-expiratory pressure (PEEP) above the inflection point (P(inf)) has been shown to reduce lung injury by recruiting previously closed alveolar regions; however, it carries the risk of hyperinflating the lungs. The present study examined the hypothesis that a new strategy of recruiting the lung with a sustained inflation (SI), followed by ventilation with small tidal volumes, would allow the maintenance of low PEEP levels (<P(inf)) without inducing additional lung injury. DESIGN: Prospective, randomized, controlled ex vivo study. SETTING: An animal laboratory in a university setting. SUBJECTS: Isolated nonperfused lungs of adult Sprague-Dawley rats. INTERVENTIONS: We studied the effect on compliance and lung injury in four groups (n = 10 per group) of lavaged rat lungs. One group (group 1) served as a control; their lungs were inflated at PEEP < P(inf) but not ventilated. The other three groups were ventilated with small tidal volumes (5 to 6 mL/kg) for 2 hrs with the following interventions: group 2, PEEP < P(inf) without SI; group 3, PEEP < P(inf) after a SI to 30 cm H2O for 30 secs; and group 4, PEEP > P(inf). MEASUREMENTS AND MAIN RESULTS: In groups 2 and 4, static compliance decreased after ventilation (p < .01). Histologically, group 2 (PEEP < P(inf) without SI) showed significantly greater injury of small airways, but not of terminal respiratory units, compared with group 1. Group 3 (PEEP < P(inf) after a SI), but not group 4, showed significantly less injury of small airways and terminal respiratory units compared with group 2. CONCLUSIONS: We conclude that small tidal volume ventilation after a recruitment maneuver allows ventilation on the deflation limb of the pressure/volume curve of the lungs at a PEEP < P(inf). This strategy a) minimizes lung injury as well as, or better than, use of PEEP > P(inf), and b) ensures a lower PEEP, which may minimize the detrimental consequences of high lung volume ventilation.
Publication Types:
PMID: 10507622 [PubMed - indexed for MEDLINE]