Myocardial redox state during coronary artery bypass grafting assessed with microdialysis

Purpose. Microdialysis allows the biochemical analysis of interstitial fluids of nearly every organ as a bedside procedure. This technique could be useful to reveal data about the myocardial metabolism during cardiopulmonary bypass in human coronary artery bypass graft (CABG) surgery. Methods. In 17 patients undergoing CABG a myocardial microdialysis catheter (CMA 70, CMA/Microdialysis AB, Sweden) was inserted in the apical region of the beating heart. Microdialysis measurements were performed at timed intervals before, during, and after cardiopulmonary bypass (CPB). The concentrations of lactate and pyruvate were analyzed semi-continuously. Results. During CPB the myocardial lactate- pyruvate- ratio (LPR) rose from an initial 11 (8-15) to 33 (29-41) (P<0.01). After CPB the LPR decreased to 4 (3-7) at the end of observation (P<0.05). The pyruvate concentration showed an immediate increase from 34 (30-42) muM at the end of CPB to 181 (147-234) muM after removal of the cross-clamp with subsequent increase during reperfusion (P<0.01). Plasma lactate and pyruvate showed no essential changes during the study. Conclusion. Using the microdialysis technique it was possible to analyze myocardial metabolic changes during CABG. The course of myocardial LPR as a sensitive indicator of the myocardial redox state showed profound changes during and after CPB. We propose the microdialysis technique as an additional monitoring tool in CABG.