Choosing the frequency of deep inflation in mice: balancing recruitment against ventilator-induced lung injury

doi:10.1152/ajplung.00532.2005

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Am J Physiol Lung Cell Mol Physiol 291: L710-L717, 2006. First published May 12, 2006; doi:10.1152/ajplung.00532.2005
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Choosing the frequency of deep inflation in mice: balancing recruitment against ventilator-induced lung injury

Gilman B. Allen,¹^,2 Benjamin T. Suratt,¹^,2 Lisa Rinaldi,¹ Joseph M. Petty,¹ and Jason H. T. Bates¹^,2

¹Vermont Lung Center, Department of Medicine, University of Vermont, and ²Fletcher Allen Health Care, Burlington, Vermont

Submitted 19 December 2005 ; accepted in final form 26 April 2006

Low tidal volume (Vt) ventilation is protective against ventilator-inducedlung injury but can promote development of atelectasis. Periodicdeep inflation (DI) can open the lung, but if delivered toofrequently may cause damage via repeated overdistention. Wetherefore examined the effects of varying DI frequency on lungmechanics, gas exchange, and biomarkers of injury in mice. C57BL/6males were mechanically ventilated with positive end-expiratorypressure (PEEP) of 2 cmH₂O for 2 h. One high Vt group receiveda DI with each breath (HV). Low Vt groups received 2 DIs aftereach hour of ventilation (LV) or 2 DIs every minute (LVDI).Control groups included a nonventilated surgical sham and agroup receiving high Vt with zero PEEP (HVZP). Respiratory impedancewas measured every 4 min, from which tissue elastance (H) anddamping (G) were derived. G and H rose progressively duringLV and HVZP, but returned to baseline after hourly DI duringLV. During LVDI and HV, G and H remained low and gas exchangewas superior to that of LV. Bronchoalveolar lavage fluid proteinwas elevated in HV and HVZP but was not different between LVand LVDI. Lung tissue IL-6 and IL-1 $beta$ levels were elevated inHVZP and lower in LVDI compared with LV. We conclude that frequentDI can safely improve gas exchange and lung mechanics and mayconfer protection from biotrauma. Differences between LVDI andHV suggest that an optimal frequency range of DI exists, withinwhich the benefits of maintaining an open lung outweigh injuryincurred from overdistention.

recruitment; lung mechanics; respiratory impedance

Address for reprint requests and other correspondence: G. B. Allen, Univ. of Vermont, HSRF Rm. 220, 149 Beaumont Ave., Burlington, VT 05405 (e-mail: Gil.Allen{at}uvm.edu)

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