Nitric Oxide Attenuates the Inflammatory Effects of Air During Extracorporeal Circulation.
John M ToomasianMark M P JeakleMark W LangleyClinton J PolingGergely LautnerOrsolya Lautner-CsorbaMark M MeyerhoffBen Jamin D CarrAlvaro Rojas-PenaJonathan W HaftRobert H BartlettPublished in: ASAIO journal (American Society for Artificial Internal Organs : 1992) (2021)
Cardiopulmonary bypass causes a systemic inflammatory response reaction that may contribute to postoperative complications. One cause relates to the air/blood interface from the extracorporeal circuit. The modulatory effects of blending nitric oxide (NO) gas into the ventilation/sweep gas of the membrane lung was studied in a porcine model of air-induced inflammation in which NO gas was added and compared with controls with or without an air/blood interface. Healthy swine were supported on partial bypass under four different test conditions. Group 1: no air exposure, group 2: air alone, group 3: air plus 50 ppm NO, and group 4: air plus 500 ppm NO. The NO gas was blended into the ventilation/sweep site of the membrane lung. The platelets and leucocytes were activated by air alone. Addition of NO to the sweep gas attenuated the inflammatory response created by the air/blood interface in this model.