Resting coronary flow and coronary flow reserve in human infants after repair or palliation of congenital heart defects as measured by positron emission tomography

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Resting coronary flow and coronary flow reserve in human infants after repair or palliation of congenital heart defects as measured by positron emission tomography

Jon P. Donnelly, MD, David M. Raffel, PhD, Barry L. Shulkin, MD, James R. Corbett, MD, Edward L. Bove, MD, Ralph S. Mosca, MD, Thomas J. Kulik, MD

Department of Pediatrics, Division of Pediatric Cardiology; Department of Surgery, Division of Pediatric Cardiovascular Surgery; and Department of Internal Medicine, Division of Nuclear Medicine; University of Michigan, Ann Arbor, Mich. Supported by funds from the National Institutes of Health through a grant from the Clinical Research Center at the University of Michigan Medical Center.

Received for publication March 25, 1997; revisions requested July 8, 1997; revisions received July 30, 1997; accepted for publication August 8, 1997. Address for reprints: Thomas J. Kulik, MD, University of Michigan Hospitals, MCHC F1310, Box 0204, Ann Arbor, MI 48109–0204.

Objective: Coronary physiology in infants with congenital heartdisease remains unclear. Our objective was to better understandcoronary physiology in infants with congenital heart disease.
Methods:We used positron emission tomography with nitrogen 13–labeledammonia to measure myocardial perfusion at rest and with adenosine(142 µg/kg/min x 6 minutes) in five infants afteranatomic repair of a congenital heart lesion (group I), andin five infants after Norwood palliation for hypoplastic leftheart syndrome (group II). The groups were matched for age,weight, and time from the operation.
Results: Resting coronaryflow in the left ventricle in group I was 1.8 ±0.2 ml/min/gm; resting flow in the right ventricle in groupII was 1.0 ± 0.3 ml/min/gm (p = 0.003). Coronaryflow with adenosine was 2.6 ± 0.5 ml/min/gm ingroup I and 1.5 ± 0.7 ml/min/gm in group II (p =0.02). Absolute coronary flow reserve was the same in both groups(1.5 ± 0.2 in group I vs 1.6 ± 0.3 ingroup II, p = 0.45). Oxygen delivery was reduced in groupII compared with group I at rest (16.1 ± 4.2 ml/min/100gm vs 28.9 ± 4.42 ml/min/100 gm, p = 0.02)and with adenosine (25.5 ± 8.1 ml/min/100 gm vs42.3 ± 5.8 ml/min/100 gm, p = 0.02).
Conclusions:Infants with repaired heart disease have higher resting flowand less coronary flow reserve than previously reported foradults. After Norwood palliation, infants have less perfusionand oxygen delivery to the systemic ventricle than do infantswith a repaired lesion. This may in part explain why the outcomefor patients with Norwood palliation is less favorable thanfor others. (J Thorac Cardiovasc Surg 1998;115:103-10)

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				M. Ricci, P. Lombardi, A. Galindo, S. Schultz, A. Vasquez, and E. Rosenkranz Effects of single-ventricle physiology with aortopulmonary shunt on regional myocardial blood flow in a piglet model. J. Thorac. Cardiovasc. Surg., August 1, 2006; 132(2): 252 - 259.e2. [Abstract] [Full Text] [PDF]

				S P McGuirk, M Griselli, O F Stumper, E M Rumball, P Miller, R Dhillon, J V de Giovanni, J G Wright, D J Barron, and W J Brawn Staged surgical management of hypoplastic left heart syndrome: a single institution 12 year experience Heart, March 1, 2006; 92(3): 364 - 370. [Abstract] [Full Text] [PDF]

				C. L. Cua, R. R. Thiagarajan, R. Taeed, T. M. Hoffman, L. Lai, J. Hayes, P. C. Laussen, and T. F. Feltes Improved Interstage Mortality With the Modified Norwood Procedure: A Meta-Analysis Ann. Thorac. Surg., July 1, 2005; 80(1): 44 - 49. [Abstract] [Full Text] [PDF]

				C. Pizarro, T. Mroczek, E. Malec, and W. I. Norwood Right Ventricle to Pulmonary Artery Conduit Reduces Interim Mortality After Stage 1 Norwood for Hypoplastic Left Heart Syndrome Ann. Thorac. Surg., December 1, 2004; 78(6): 1959 - 1964. [Abstract] [Full Text] [PDF]

				S. M. Bradley, J. M. Simsic, T. C. McQuinn, D. M. Habib, G. S. Shirali, and A. M. Atz Hemodynamic status after the Norwood procedure: A comparison of right ventricle-to-pulmonary artery connection versus modified blalock-taussig shunt Ann. Thorac. Surg., September 1, 2004; 78(3): 933 - 941. [Abstract] [Full Text] [PDF]

				R E Andrews, R M R Tulloh, D R Anderson, and S B Lucas Acute myocardial infarction as a cause of death in palliated hypoplastic left heart syndrome Heart, April 1, 2004; 90(4): e17 - 17. [Abstract] [Full Text] [PDF]

				M L Hughes, L S Shekerdemian, C P Brizard, and D J Penny Improved early ventricular performance with a right ventricle to pulmonary artery conduit in stage 1 palliation for hypoplastic left heart syndrome: evidence from strain Doppler echocardiography Heart, February 1, 2004; 90(2): 191 - 194. [Abstract] [Full Text] [PDF]

				G. E. Wright, D. C. Crowley, J. R. Charpie, R. G. Ohye, E. L. Bove, and T. J. Kulik High systemic vascular resistance and sudden cardiovascular collapse in recovering norwood patients Ann. Thorac. Surg., January 1, 2004; 77(1): 48 - 52. [Abstract] [Full Text] [PDF]

				W. T. Mahle, A. R. Cuadrado, and V. K. H. Tam Early experience with a modified norwood procedure using right ventricle to pulmonary artery conduit Ann. Thorac. Surg., October 1, 2003; 76(4): 1084 - 1088. [Abstract] [Full Text] [PDF]

				C. Pizarro, E. Malec, K. O. Maher, K. Januszewska, S. S. Gidding, K. A. Murdison, J. M. Baffa, and W. I. Norwood Right Ventricle to Pulmonary Artery Conduit Improves Outcome After Stage I Norwood for Hypoplastic Left Heart Syndrome Circulation, September 9, 2003; 108(90101): II-155 - 160. [Abstract] [Full Text] [PDF]

				M. S. Cohen, B. S. Marino, D. B. McElhinney, D. Robbers-Visser, W. van der Woerd, J. W. Gaynor, T. L. Spray, and G. Wernovsky Neo-aortic root dilation and valve regurgitation up to 21 years after staged reconstruction for hypoplastic left heart syndrome J. Am. Coll. Cardiol., August 6, 2003; 42(3): 533 - 540. [Abstract] [Full Text] [PDF]

				C. Pizarro and W. I. Norwood Right ventricle to pulmonary artery conduit has a favorable impact on postoperative physiology after Stage I Norwood: preliminary results Eur. J. Cardiothorac. Surg., June 1, 2003; 23(6): 991 - 995. [Abstract] [Full Text] [PDF]

				D. A. Ashburn, B. W. McCrindle, C. I. Tchervenkov, M. L. Jacobs, G. K. Lofland, E. L. Bove, T. L. Spray, W. G. Williams, and E. H. Blackstone Outcomes after the Norwood operation in neonates with critical aortic stenosis or aortic valve atresia J. Thorac. Cardiovasc. Surg., May 1, 2003; 125(5): 1070 - 1082. [Abstract] [Full Text] [PDF]

				G. Oskarsson, E. Pesonen, P. Munkhammar, S. Sandstrom, and P. Jogi Normal Coronary Flow Reserve After Arterial Switch Operation for Transposition of the Great Arteries: An Intracoronary Doppler Guidewire Study Circulation, September 24, 2002; 106(13): 1696 - 1702. [Abstract] [Full Text] [PDF]

				W. T. Mahle, T. L. Spray, J. W. Gaynor, and B. J. Clark III Unexpected death after reconstructive surgery for hypoplastic left heart syndrome Ann. Thorac. Surg., January 1, 2001; 71(1): 61 - 65. [Abstract] [Full Text] [PDF]

				J. S. Tweddell, G. M. Hoffman, R. T. Fedderly, N. S. Ghanayem, J. M. Kampine, S. Berger, K. A. Mussatto, and S. B. Litwin Patients at risk for low systemic oxygen delivery after the Norwood procedure Ann. Thorac. Surg., June 1, 2000; 69(6): 1893 - 1899. [Abstract] [Full Text] [PDF]

				A. Corno Evaluation of resting coronary blood flow and coronary flow reserve in infants after cardiac operations J. Thorac. Cardiovasc. Surg., July 1, 1998; 116(1): 182 - 183. [Full Text]

SURGERY FOR CONGENITAL HEART DISEASE

Resting coronary flow and coronary flow reserve in human infants after repair or palliation of congenital heart defects as measured by positron emission tomography