Effect of Xe/O2 Inhalation on Hemostasis in Experimental Thromboplastin Pneumonitis.

We studied the effectiveness of Xe/O2 mixture inhalation (30% Xe and 70% O2, 20 min for 5 days) in a model of experimental thromboplastin pneumonitis. Inhalation of the studied mixture decreased the intensity of the inflammatory process in the lung tissue assessed by the temperature response of animals, changed lung weight and lung weight coefficient. At acute stage of pneumonitis, an increase in xenon consumption was recorded due to its retention in the gas exchange zone and a natural decrease in oxygen consumption due to partial alveolar/capillary block. The formation of pneumonitis was accompanied by a pronounced procoagulant shift in the regulation system of the aggregate state of blood. The Xe/O2 inhalations ensured physiologically optimal levels of prothrombin and activated partial thromboplastin time against the background of a moderate decrease in fibrinogen level throughout the experiment. At the same time, the activity of the natural anticoagulant antithrombin III increased from day 5 to day 14.

Xenon-Induced Effects in Relieving Experimental Acute Respiratory Distress Syndrome.

The effects of inhalations of an oxygen-xenon (70%/30%) mixture were studied in two models of acute respiratory distress syndrome caused by intratracheal administration of 0.5 mg/kg LPS or 0.04 ml acidin-pepsin (pH 1.2). Inhalation of the oxygen-xenon mixture inhibited the development and reduced the intensity of the inflammatory process in the lung tissue, which was assessed by the dynamics of lung weight and body weight of animals: the therapeutic exposure decreased both parameters. It was found that the thrombogenic stimulus, pathognomonic for the development of acute respiratory distress syndrome, decreased under the effect of oxygen-xenon inhalations, while the level of natural anticoagulant antithrombin III increased.