Measurement of cardiac output before and after cardiopulmonary bypass: Comparison among aortic transit-time ultrasound, thermodilution, and noninvasive partial CO2 rebreathing

A noninvasive continuous cardiac output system (NICO) has been developed recently. NICO uses a ratio of the change in the end-tidal carbon dioxide partial pressure and carbon dioxide elimination in response to a brief period of partial rebreathing to measure CO. The aim of this study was to compare...

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Bibliographic Details
Published in:Journal of cardiothoracic and vascular anesthesia 2004-10, Vol.18 (5), p.563-572
Main Authors: Botero, Monica, Kirby, David, Lobato, Emilio B, Staples, Edward D, Gravenstein, Nikolaus
Format: Article
Language:English
Subjects:
Administration, Inhalation
Aged
Aged, 80 and over
Anesthesia, General - methods
Aorta - diagnostic imaging
Carbon Dioxide
Cardiac Output - physiology
Cardiopulmonary Bypass - methods
Electromagnetic Phenomena - methods
Humans
Intubation, Intratracheal - methods
Male
Middle Aged
Monitoring, Physiologic - methods
Prospective Studies
Reproducibility of Results
Respiration, Artificial - methods
Rheology - methods
Thermodilution - methods
Time Factors
Ultrasonography
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Summary:A noninvasive continuous cardiac output system (NICO) has been developed recently. NICO uses a ratio of the change in the end-tidal carbon dioxide partial pressure and carbon dioxide elimination in response to a brief period of partial rebreathing to measure CO. The aim of this study was to compare the agreement among NICO, bolus (TDCO), and continuous thermodilution (CCO), with transit-time flowmetry of the ascending aorta using an ultrasonic flow probe (UFP) before and after cardiopulmonary bypass (CPB). Prospective, observational human study. Veterans Affairs Medical Center Hospital. Sixty-eight patients. Matched sets of CO measurements between NICO, TDCO, CCO, and UFP were collected in 68 patients undergoing elective CABG at specific time periods before and after separation from CPB. After anesthetic induction, all patients had an NICO sensor attached between the endotracheal tube and the breathing circuit, a PAC floated into the pulmonary artery for TDCO and CCO monitoring, and a UFP positioned on the ascending aorta and used for the reference CO. Bland-Altman analysis was used to compare the agreement among the different methods. Bland-Altman analysis of CO measurements before CPB yielded a bias, precision, and percent error of 0.04 L/min +/- 1.07 L/min (44.8%) for NICO, 0.18 L/min +/- 1.01 L/min (41.7%) for TDCO, and 0.29 L/min +/- 1.40 L/min (57.5%) for CCO compared with simultaneous UFP CO measurements, respectively. After separation from CPB (average 29 mins), bias, precision, and percent error were -0.46 L/min +/- 1.06 L/min (37.3%) for NICO, 0.35 L/min +/- 1.39 L/min (46.1%) for TDCO, and 0.36 L/min +/- 1.96 L/min (64.7%) for CCO compared with UFP CO measurements, respectively. Before initiation of CPB, the accuracy for all 3 techniques was similar. After separation from CPB, the tendency was for NICO to underestimate CO and for TDCO and CCO to overestimate it. NICO offers an alternative to invasive CO measurement.
ISSN:1053-0770
DOI:10.1053/j.jvca.2004.07.005