Detrimental Effects of Cardiopulmonary Bypass in Cyanotic Infants: Preventing the Reoxygenation Injury

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Original Articles: Cardiovascular

Detrimental Effects of Cardiopulmonary Bypass in Cyanotic Infants: Preventing the Reoxygenation Injury

Bradley S. Allen, MD, Shaikh Rahman, MS, Michel N. Ilbawi, MD, Michael Kronon, MD, Kirk S. Bolling, MD, Ari O. Halldorsson, MD, Harold Feinberg, PhD

Division of Cardiothoracic Surgery, The University of Illinois, Chicago, Illinois

Background. Recent experimental studies have shown that acutehypoxia followed by abrupt reoxygenation using cardiopulmonarybypass (CPB) results in an unintended injury mediated by oxygenfree radicals, which can be modified by initiating CPB at alower fraction of inspired oxygen (FiO₂) or by leukocyte filtration.However, the clinical relevance of these experimental studieshas been questioned because chronic hypoxia may allow compensatorychanges to occur.

Methods. Seven acyanotic infants had CPB initiated at an FiO₂of 1.0. Of 21 cyanotic infants, 7 (group 1) had CPB initiatedat an FiO₂ of 1.0, 6 (group 2) at an FiO₂ of 0.21, and 8 (group3) underwent CPB using leukocyte filtration. Biopsy of rightatrial tissue was performed before and 10 to 20 minutes afterthe initiation of CPB. The tissue was incubated in 4-mmol/Lt-butylhydroperoxide (a strong oxidant), and the malondialdehyde(MDA) level was measured to determine the antioxidant reservecapacity. The more MDA produced, the greater was the depletionof tissue antioxidants secondary to oxygen free radical formationduring reoxygenation.

Results. There was no difference in the prebypass antioxidantreserve capacity between cyanotic and acyanotic hearts (492± 72 versus 439 ± 44 nmol MDA/g protein). However,after the initiation of CPB without leukocyte filtration, MDAproduction rose markedly in the cyanotic (groups 1 and 2) ascompared with the acyanotic hearts (322% versus 40%; p <0.05), indicating a depletion of antioxidants. In cyanotic hearts,initiating CPB at an FiO₂ of 1.0 (group 1) resulted in increasedMDA production (407% versus 227%) as compared with hearts inwhich CPB was initiated at an FiO₂ of 0.21 (group 2), indicatinga greater generation of oxygen free radicals in group 1. Conversely,there was only a minimal increase in MDA production in 8 ofthe 21 infants (group 3) in whom white blood cells were effectivelyfiltered (19% versus 322%; p < 0.05).

Conclusions. First, increased amounts of oxygen free radicalsare generated in cyanotic infants with the initiation of CPB.Second, this production is reduced by initiating CPB at an FiO₂of 0.21 or by effectively filtering white blood cells. Third,these changes parallel those seen in the acute experimentalmodel, validating its use for future study.

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				M. L. Sheil, C. Luxford, M. J. Davies, J. K. Peat, G. Nunn, and D. S. Celermajer Protein oxidation injury occurs during pediatric cardiopulmonary bypass J. Thorac. Cardiovasc. Surg., October 1, 2005; 130(4): 1054 - 1061. [Abstract] [Full Text] [PDF]

				I. Malagon, K. Hogenbirk, J. van Pelt, M. G. Hazekamp, and J. G. Bovill Effect of three different anaesthetic agents on the postoperative production of cardiac troponin T in paediatric cardiac surgery Br. J. Anaesth., June 1, 2005; 94(6): 805 - 809. [Abstract] [Full Text] [PDF]

				S W Sutton, A N Patel, V A Chase, L A Schmidt, E K Hunley, L W Yancey, R F Hebeler, E H Cheung, A C Henry III, T P Meyers, et al. Clinical benefits of continuous leukocyte filtration during cardiopulmonary bypass in patients undergoing valvular repair or replacement Perfusion, January 1, 2005; 20(1): 21 - 29. [Abstract] [PDF]

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				H. A. Hennein Inflammation After Cardiopulmonary Bypass: Therapy for the Postpump Syndrome Seminars in Cardiothoracic and Vascular Anesthesia, September 1, 2001; 5(3): 236 - 255. [Abstract] [PDF]

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				M. T. Kronon, B. S. Allen, K. S. Bolling, S. Rahman, T. Wang, H. S. Maniar, S. M. Prasad, and M. N. Ilbawi The role of cardioplegia induction temperature and amino acid enrichment in neonatal myocardial protection Ann. Thorac. Surg., September 1, 2000; 70(3): 756 - 764. [Abstract] [Full Text] [PDF]

				M. T. Kronon, B. S. Allen, S. Rahman, T. Wang, N. A. Tayyab, K. S. Bolling, and M. N. Ilbawi Reducing postischemic reperfusion damage in neonates using a terminal warm substrate-enriched blood cardioplegic reperfusate Ann. Thorac. Surg., September 1, 2000; 70(3): 765 - 770. [Abstract] [Full Text] [PDF]

				A. F Corno, G. Milano, M. Samaja, L. K von Segesser, A. F Corno, G. Milano, M. Samaja, and L. K von Segesser Myocardial Damage Induced by Uncontrolled Reoxygenation Asian Cardiovasc Thorac Ann, March 1, 2000; 8(1): 34 - 37. [Abstract] [Full Text] [PDF]

				M. T. Kronon, B. S. Allen, J. Hernan, A. O. Halldorsson, S. Rahman, G. D. Buckberg, T. Wang, and M. N. Ilbawi Superiority of magnesium cardioplegia in neonatal myocardial protection Ann. Thorac. Surg., December 1, 1999; 68(6): 2285 - 2291. [Abstract] [Full Text] [PDF]

				R. R. Chaturvedi, D. F. Shore, C. Lincoln, S. Mumby, M. Kemp, J. Brierly, A. Petros, J. M.G. Gutteridge, J. Hooper, and A. N. Redington Acute Right Ventricular Restrictive Physiology After Repair of Tetralogy of Fallot : Association With Myocardial Injury and Oxidative Stress Circulation, October 5, 1999; 100(14): 1540 - 1547. [Abstract] [Full Text] [PDF]

				I. Schulze-Neick, D. J. Penny, M. L. Rigby, C. Morgan, A. Kelleher, P. Collins, J. Li, A. Bush, E. A. Shinebourne, and A. N. Redington L-Arginine and Substance P Reverse the Pulmonary Endothelial Dysfunction Caused by Congenital Heart Surgery Circulation, August 17, 1999; 100(7): 749 - 755. [Abstract] [Full Text] [PDF]

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