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The influence of measured versus assumed uptake of oxygen in assessing pulmonary vascular resistance in patients with a bidirectional Glenn anastomosis

Published online by Cambridge University Press:  18 April 2005

Christine L. Shanahan
Affiliation:
Department of Cardiac Measurement, Clinical Physiology, Green Lane Hospital, Auckland, New Zealand
Nigel J. Wilson
Affiliation:
Department of Paediatric Cardiology, Green Lane Hospital, Auckland, New Zealand
Tom L. Gentles
Affiliation:
Department of Paediatric Cardiology, Green Lane Hospital, Auckland, New Zealand
Jonathan R. Skinner
Affiliation:
Department of Paediatric Cardiology, Green Lane Hospital, Auckland, New Zealand

Abstract

Aims: To determine the accuracy of data relating to pulmonary vascular resistance data in patients with a bidirectional Glenn anastomosis as calculated using predicted versus measured uptake of oxygen. Methods: We studied retrospectively the data from 33 patients with a bidirectional Glenn anastomosis who underwent cardiac catheterisation prior to surgery to complete the Fontan circulation. Their weight ranged from 5.4 to 51.7 kg, and they were aged up to 12 years. Uptake of oxygen was measured using the Deltatrac II metabolic monitor. From the calculated indexed pulmonary vascular resistance, cases were stratified according to the risk of failure of the subsequent Fontan circulation. The six patients with a resistance of greater than 4 Um2 were deemed at high risk, the six with a resistance from 3 to 4 Um2 at moderate risk, and the 21 patients with a resistance less than 3 Um2 at low risk. Uptake of oxygen was also estimated from the predictive formulas of Lindahl, Lundell et al. and LaFarge and Miettinen. The indexed resistance was similarly calculated using these formulas and a comparable stratification of risk made from this data. Results: The predicted values for uptake of oxygen were consistently higher than those measured, leading to an underestimation of indexed resistance, with mean difference between −0.62 and −1.57 Um2. This difference resulted in misclassification of between five and nine of the 12 patients considered at moderate or high risk as being at low-risk. No other haemodynamic data could reliably separate the subjects deemed at low-risk from those considered to be at high-risk. A transpulmonary gradient of greater than 7 mm of mercury was found to be 100 percent specific for elevated indexed resistance, but only 60 percent sensitive. Conclusions: In patients with bidirectional Glenn anastomoses, all formulas based on predictive uptake of oxygen lead to underestimation of the true indexed pulmonary vascular resistance, to an extent that could significantly influence clinical decision-making. The transpulmonary gradient is not a reliable surrogate for indexed pulmonary vascular resistance.

Type
Original Article
Copyright
© 2003 Cambridge University Press

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References

Gentles TL, Mayer JE Jr, Gauvreau K, et al. Fontan operation in five hundred consecutive patients: Factors influencing early and late outcome. J Thorac Cardiovasc Surg 1997; 114: 376391.Google Scholar
Gentles TL, Gauvreau K, Mayer JE Jr, et al. Functional outcome after the Fontan operation: factors influencing late morbidity. J. Thorac Cardiovasc Surg 1997; 114: 392403.Google Scholar
Mair DD, Hagler DJ, Puga FJ, Schaff HV, Danielson GK. Fontan operation in 176 patients with tricuspid atresia, results with a proposed new index for patient selection. Circulation 1990; 82: 164169.Google Scholar
Wessel HU, Rorem D, Muster AJ, Acevedo RE, Paul MH. Continuous determination of oxygen uptake in sedated infants and children during cardiac catheterisation. Am J Cardiol 1969; 24: 376385.Google Scholar
Laitinen PO, Räsänen J. Measured versus predicted oxygen consumption in children with congenital heart disease. Heart 1998; 80: 601605.Google Scholar
Lundell BPW, Casas ML, Wallgren CG. Oxygen consumption in Infants and Children during heart catheterisation. Pediatr Cardiol 1996, 17: 207213.Google Scholar
Lindahl SGE. Oxygen consumption and carbon dioxide elimination in infants and children during anaesthesia and surgery. Br J Anaesth 1989, 62: 7076.Google Scholar
LaFarge CG, Miettinen OS. The estimation of oxygen consumption. Cardiovasc Res 1970; 4: 2330.Google Scholar
Bland MJ, Altman DG. Statistical methods for assessing agreement between two methods of clinical measurement. Lancet 1986; 8: 307310.Google Scholar