Dynamic determination of oxygenation and lung compliance in murine pneumonectomy.

Barry C Gibney, Grace S Lee, Jan P Houdek, Miao Lin, Lino F Miele, Kenji Chamoto, Moritz A Konerding, Akira Tsuda, Steven J Mentzer

Laboratory of Adaptive and Regenerative Biology, Brigham & Women's Hospital, Harvard Medical School, Boston, Massachusetts 02115, USA.

Experimental lung research 2011 Jun

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Thoracic surgical procedures in mice have been applied to a wide range of investigations, but little is known about the murine physiologic response to pulmonary surgery. Using continuous arterial oximetry monitoring and the FlexiVent murine ventilator, the authors investigated the effect of anesthesia and pneumonectomy on mouse oxygen saturation and lung mechanics. Sedation resulted in a dose-dependent decline of oxygen saturation that ranged from 55% to 82%. Oxygen saturation was restored by mechanical ventilation with increased rate and tidal volumes. In the mouse strain studied, optimal ventilatory rates were a rate of 200/minute and a tidal volume of 10 mL/kg. Sustained inflation pressures, referred to as a "recruitment maneuver," improved lung volumes, lung compliance, and arterial oxygenation. In contrast, positive end-expiratory pressure (PEEP) had a detrimental effect on oxygenation; an effect that was ameliorated after pneumonectomy. These results confirm that lung volumes in the mouse are dynamically determined and suggest a threshold level of mechanical ventilation to maintain perioperative oxygen saturation.

Citation

Barry C Gibney, Grace S Lee, Jan P Houdek, Miao Lin, Lino F Miele, Kenji Chamoto, Moritz A Konerding, Akira Tsuda, Steven J Mentzer. Dynamic determination of oxygenation and lung compliance in murine pneumonectomy. Experimental lung research. 2011 Jun;37(5):301-9