Accuracy of Cardiac Output by Nine Different Pulse Contour Algorithms in Cardiac Surgery Patients: A Comparison with Transpulmonary Thermodilution

Objective. Today, there exist several different pulse contour algorithms for calculation of cardiac output (CO). The aim of the present study was to compare the accuracy of nine different pulse contour algorithms with transpulmonary thermodilution before and after cardiopulmonary bypass (CPB). Metho...

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Bibliographic Details
Published in:BioMed research international 2016-01, Vol.2016 (2016), p.1-13
Main Authors: Renner, Jochen, Haneya, Assad, Huenges, Katharina, Masing, Sarah, Gruenewald, Matthias, Bein, Berthold, Broch, Ole, Steinfath, Markus
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Anesthesiology
Biomedical research
Blood pressure
Blood Pressure Determination - methods
Cardiac output
Cardiac Output - physiology
Cardiac patients
Comparative analysis
Compliance
Coronary Artery Bypass - methods
Diagnosis, Computer-Assisted - methods
Drug dosages
Esophagus
Female
Health aspects
Heart
Hospitals
Humans
Intensive care
Male
Middle Aged
Monitoring, Intraoperative - methods
Patients
Pulmonary Artery - physiology
Pulse Wave Analysis - methods
Reproducibility of Results
Sensitivity and Specificity
Software
Studies
Surgery
Thermodilution - methods
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Summary:Objective. Today, there exist several different pulse contour algorithms for calculation of cardiac output (CO). The aim of the present study was to compare the accuracy of nine different pulse contour algorithms with transpulmonary thermodilution before and after cardiopulmonary bypass (CPB). Methods. Thirty patients scheduled for elective coronary surgery were studied before and after CPB. A passive leg raising maneuver was also performed. Measurements included CO obtained by transpulmonary thermodilution (COTPTD) and by nine pulse contour algorithms (COX1–9). Calibration of pulse contour algorithms was performed by esophageal Doppler ultrasound after induction of anesthesia and 15 min after CPB. Correlations, Bland-Altman analysis, four-quadrant, and polar analysis were also calculated. Results. There was only a poor correlation between COTPTD and COX1–9 during passive leg raising and in the period before and after CPB. Percentage error exceeded the required 30% limit. Four-quadrant and polar analysis revealed poor trending ability for most algorithms before and after CPB. The Liljestrand-Zander algorithm revealed the best reliability. Conclusions. Estimation of CO by nine different pulse contour algorithms revealed poor accuracy compared with transpulmonary thermodilution. Furthermore, the less-invasive algorithms showed an insufficient capability for trending hemodynamic changes before and after CPB. The Liljestrand-Zander algorithm demonstrated the highest reliability. This trial is registered with NCT02438228 (ClinicalTrials.gov).
ISSN:2314-6133
2314-6141
DOI:10.1155/2016/3468015