期刊
CHEST
卷 120, 期 5, 页码 1599-1608出版社
AMER COLL CHEST PHYSICIANS
DOI: 10.1378/chest.120.5.1599
关键词
antiproteases; BAL; blood glucose; cardiopulmonary bypass; elastase; glutathione; intracellular thiol; oxygenation; systemic inflammation
Objective: Cardiopulmonary bypass (CPB) triggers systemic inflammation. Recent evidence suggests that metabolic and oxygenation management can affect the outcome of patients after cardiac surgery. We investigated the influence of oxidant/antioxidant and protease/antiprotease imbalance during the course of systemic and pulmonary inflammation. Methods: In a study of 61 patients, we measured the intracellular thiol concentration, the intracellular activity of cathepsins and elastase, and the concentrations of secreted elastase, soluble as-proteinase inhibitor (alpha (1)-Pl), and secretory leukoprotease inhibitor (SLPI). Peripheral blood and BAL fluid (BALE) were obtained preoperatively and 2 h after CPB. Results: A post-CPB depletion of thiol was found in blood granulocytes, lymphocytes, and monocytes, as well as BALF lymphocytes and macrophages. The degree of postoperative depletion correlated with Po-2 and blood glucose levels during CPB. Concomitant reduction of FEV1 showed positive correlation with thiol depletion of blood monocytes and granulocytes. Elastase and cathepsin activities were increased in blood cells but not in lymphocytes or macrophages from BALF. The concentrations of secreted elastase were significantly increased in blood plasma but not in BALE. Enhanced antiprotease (alpha (1)-PI, SLPI) concentrations were measured in BALF but not in peripheral blood. Conclusions: The inflammatory response of the intra-alveolar compartment is clearly distinguishable from systemic inflammation. CPB causes a differentiated impairment of the antioxidant defense system as well as a protease/antiprotease imbalance in blood and BALE Oxygenation under circumstances of CPB and concomitant pulmonary disease, as well as blood glucose metabolism, influence the antioxidative defense. Individual perioperative management of blood glucose and oxygenation could improve cellular defense systems in the peripheral blood and BALF and therefore result in a more favorable patient outcome.
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