Preconditioning with sevoflurane decreases PECAM-1 expression and improves one-year cardiovascular outcome in coronary artery bypass graft surgery.

BACKGROUND Cardiac preconditioning is thought to be involved in the observed decreased coronary artery reocclusion rate in patients with angina preceding myocardial infarction. We prospectively examined whether preconditioning by sevoflurane would decrease late cardiac events in patients undergoing coronary artery bypass graft (CABG) surgery. METHODS Seventy-two patients scheduled for elective CABG surgery were randomized to preconditioning by sevoflurane (10 min at 4 vol%) or placebo. For all patients, follow-up of adverse cardiac events was obtained 6 and 12 months after surgery. Transcript levels for platelet-endothelial cell adhesion molecule-1 (PECAM-1/CD31), catalase and heat shock protein 70 (Hsp70) were determined in atrial biopsies after sevoflurane preconditioning. RESULTS Pharmacological preconditioning by sevoflurane reduced the incidence of late cardiac events during the first year after CABG surgery (sevoflurane 3% vs 17% in the placebo group, log-rank test, P=0.038). One patient in the sevoflurane group and three patients in the placebo group experienced new episodes of congestive heart failure and three additional patients had coronary artery reocclusion. Perioperative peak concentrations for myocardial injury markers were higher in patients with subsequent late cardiac events [NTproBNP, 9031 (4125) vs 3049 (1906) ng litre(-1), P<0.001; cTnT, 1.31 (0.88) vs 0.46 (0.29) microg litre(-1), P<0.001]. Transcript levels were reduced for PECAM-1 and increased for catalase but unchanged for Hsp70 in atrial biopsies after sevoflurane preconditioning. CONCLUSIONS This prospective randomized clinical study provides evidence of a protective role for pharmacological preconditioning by sevoflurane in late cardiac events in CABG patients, which may be related to favourable transcriptional changes in pro- and antiprotective proteins.

[1]  E. Lucchinetti,et al.  Trigger-dependent Gene Expression Profiles in Cardiac Preconditioning: Evidence for Distinct Genetic Programs in Ischemic and Anesthetic Preconditioning , 2004, Anesthesiology.

[2]  Daniel Levy,et al.  Plasma natriuretic peptide levels and the risk of cardiovascular events and death. , 2004, The New England journal of medicine.

[3]  M. Zaugg,et al.  Signaling and cellular mechanisms in cardiac protection by ischemic and pharmacological preconditioning , 2004, Journal of Muscle Research & Cell Motility.

[4]  C. Buckley,et al.  CD31 Regulates Direction and Rate of Neutrophil Migration over and under Endothelial Cells , 2003, Journal of Vascular Research.

[5]  E. Lucchinetti,et al.  Anaesthetics and cardiac preconditioning. Part I. Signalling and cytoprotective mechanisms. , 2003, British journal of anaesthesia.

[6]  G. Rich,et al.  Isoflurane Pretreatment Has Immediate and Delayed Protective Effects against Cytokine-induced Injury in Endothelial and Vascular Smooth Muscle Cells , 2003, Anesthesiology.

[7]  D. Spahn,et al.  Anaesthetics and cardiac preconditioning. Part II. Clinical implications. , 2003, British journal of anaesthesia.

[8]  W. Laskey,et al.  Frequency and clinical significance of ischemic preconditioning during percutaneous coronary intervention. , 2003, Journal of the American College of Cardiology.

[9]  V. Muzykantov,et al.  PECAM-directed delivery of catalase to endothelium protects against pulmonary vascular oxidative stress. , 2003, American journal of physiology. Lung cellular and molecular physiology.

[10]  E. Schmid,et al.  Preconditioning by Sevoflurane Decreases Biochemical Markers for Myocardial and Renal Dysfunction in Coronary Artery Bypass Graft Surgery: A Double-blinded, Placebo-controlled, Multicenter Study , 2003, Anesthesiology.

[11]  N. Hatori,et al.  Comparison of m-RNA expression for inflammatory mediators in leukocytes between on-pump and off-pump coronary artery bypass grafting. , 2003, Annals of thoracic and cardiovascular surgery : official journal of the Association of Thoracic and Cardiovascular Surgeons of Asia.

[12]  V. Richard,et al.  Endothelial protective effects of preconditioning. , 2002, Cardiovascular research.

[13]  D. Spahn,et al.  Differential Effects of Anesthetics on Mitochondrial KATP Channel Activity and Cardiomyocyte Protection , 2002, Anesthesiology.

[14]  S. Kathiresan,et al.  A comparison of cardiac troponin T and creatine kinase-MB for patient evaluation after cardiac surgery. , 2002, Journal of the American College of Cardiology.

[15]  D. Spahn,et al.  Modulation of beta-adrenergic receptor subtype activities in perioperative medicine: mechanisms and sites of action. , 2002, British journal of anaesthesia.

[16]  F. Perticone,et al.  Plasma levels of atrial and brain natriuretic peptides as indicators of recovery of left ventricular systolic function after coronary artery bypass. , 2001, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[17]  R. Bolli,et al.  Delayed Preconditioning-Mimetic Action of Nitroglycerin in Patients Undergoing Coronary Angioplasty , 2001, Circulation.

[18]  A M Zeiher,et al.  Prognostic impact of coronary vasodilator dysfunction on adverse long-term outcome of coronary heart disease. , 2000, Circulation.

[19]  S. Higano,et al.  Long-term follow-up of patients with mild coronary artery disease and endothelial dysfunction. , 2000, Circulation.

[20]  J. Lewsey,et al.  Comparing outcomes of percutaneous transluminal coronary angioplasty with coronary artery bypass grafting; can routine health service data complement and enhance randomized controlled trials? , 1999, European heart journal.

[21]  F. Crea,et al.  Ischemic preconditioning in humans: models, mediators, and clinical relevance. , 1999, Circulation.

[22]  B. Heindl,et al.  The volatile anesthetic sevoflurane mitigates cardiodepressive effects of platelets in reperfused hearts , 1999, Basic Research in Cardiology.

[23]  P. Gurbel,et al.  Effect of thrombolytic therapy on platelet expression and plasma concentration of PECAM-1 (CD31) in patients with acute myocardial infarction. , 1999, Arteriosclerosis, thrombosis, and vascular biology.

[24]  E. Topol,et al.  Increased baseline levels of platelet P‐selectin, and platelet‐endothelial cell adhesion molecule‐1 in patients with acute myocardial infarction as predictors of unsuccessful thrombolysis , 1998, Coronary artery disease.

[25]  M. Ishihara,et al.  Implications of prodromal angina pectoris in anterior wall acute myocardial infarction: acute angiographic findings and long-term prognosis. , 1997, Journal of the American College of Cardiology.

[26]  D. Warltier,et al.  Antibody to platelet/endothelial cell adhesion molecule-1 reduces myocardial infarct size in a rat model of ischemia-reperfusion injury. , 1996, Circulation.

[27]  A. Wallace,et al.  Effect of atenolol on mortality and cardiovascular morbidity after noncardiac surgery. Multicenter Study of Perioperative Ischemia Research Group. , 1996, The New England journal of medicine.

[28]  F. Lallemand,et al.  Preconditioning prevents chronic reperfusion-induced coronary endothelial dysfunction in rats. , 1996, The American journal of physiology.

[29]  G. Davies,et al.  Preinfarction angina as a major predictor of left ventricular function and long-term prognosis after a first Q wave myocardial infarction. , 1996, Journal of the American College of Cardiology.

[30]  A. Maseri,et al.  Preinfarction angina as a predictor of more rapid coronary thrombolysis in patients with acute myocardial infarction. , 1996, The New England journal of medicine.

[31]  M. Ashraf,et al.  Preconditioning of bovine endothelial cells. The protective effect is mediated by an adenosine A2 receptor through a protein kinase C signaling pathway. , 1996, Circulation research.

[32]  C. Cannon,et al.  Previous angina alters in-hospital outcome in TIMI 4. A clinical correlate to preconditioning? , 1995, Circulation.

[33]  J. Pepper,et al.  Role of catalase and heat shock protein on recovery of cardiac endothelial and mechanical function after ischemia. , 1993, Cardioscience.

[34]  W. Chilian,et al.  Preconditioning protects coronary arteriolar endothelium from ischemia-reperfusion injury. , 1993, The American journal of physiology.

[35]  H. Schaff,et al.  Long-term impairment of endothelium-dependent relaxations to aggregating platelets after reperfusion injury in canine coronary arteries. , 1990, Circulation.

[36]  K. Lee,et al.  Relationship between antecedent angina pectoris and short-term prognosis after thrombolytic therapy for acute myocardial infarction. Thrombolysis and Angioplasty in Myocardial Infarction (TAMI) Study Group. , 1990, American heart journal.