Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency

BACKGROUND: Monitoring cardiac output (CO) is important to optimize hemodynamic function in critically ill patients. The prevalence of aortic valve insufficiency (AI) is rising in the aging population. However, reliability of CO monitoring techniques in AI is unknown. The aim of this study was to in...

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Autores principales: Petzoldt, Martin, Trepte, Constantin J., Ridder, Jan, Maisch, Stefan, Klapsing, Philipp, Kersten, Jan F., Richter, Hans Peter, Kubitz, Jens C., Reuter, Daniel A., Goepfert, Matthias S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5648193/
https://www.ncbi.nlm.nih.gov/pubmed/29049339
http://dx.doi.org/10.1371/journal.pone.0186481
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author Petzoldt, Martin
Trepte, Constantin J.
Ridder, Jan
Maisch, Stefan
Klapsing, Philipp
Kersten, Jan F.
Richter, Hans Peter
Kubitz, Jens C.
Reuter, Daniel A.
Goepfert, Matthias S.
author_facet Petzoldt, Martin
Trepte, Constantin J.
Ridder, Jan
Maisch, Stefan
Klapsing, Philipp
Kersten, Jan F.
Richter, Hans Peter
Kubitz, Jens C.
Reuter, Daniel A.
Goepfert, Matthias S.
author_sort Petzoldt, Martin
collection PubMed
description BACKGROUND: Monitoring cardiac output (CO) is important to optimize hemodynamic function in critically ill patients. The prevalence of aortic valve insufficiency (AI) is rising in the aging population. However, reliability of CO monitoring techniques in AI is unknown. The aim of this study was to investigate the impact of AI on accuracy, precision, and trending ability of transcardiopulmonary thermodilution-derived CO(TCPTD) in comparison with pulmonary artery catheter thermodilution CO(PAC). METHODS: Sixteen anesthetized domestic pigs were subjected to serial simultaneous measurements of CO(PAC) and CO(TCPTD). In a novel experimental model, AI was induced by retraction of an expanded Dormia basket in the aortic valve annulus. The Dormia basket was delivered via a Judkins catheter guided by substernal epicardial echocardiography. High (HPC), moderate (MPC) and low cardiac preload conditions (LPC) were induced by fluid unloading (20 ml kg(-1) blood withdrawal) and loading (subsequent retransfusion of the shed blood and additional infusion of 20 ml kg(-1) hydroxyethyl starch). Within each preload condition CO was measured before and after the onset of AI. For statistical analysis, we used a mixed model analysis of variance, Bland-Altman analysis, the percentage error and concordance analysis. RESULTS: Experimental AI had a mean regurgitant volume of 33.6 ± 12.0 ml and regurgitant fraction of 42.9 ± 12.6%. The percentage error between CO(TCPTD) and CO(PAC) during competent valve function and after induction of substantial AI was: HPC 17.7% vs. 20.0%, MPC 20.5% vs. 26.1%, LPC 26.5% vs. 28.1% (pooled data: 22.5% vs. 24.1%). The ability to trend CO-changes induced by fluid loading and unloading did not differ between baseline and AI (concordance rate 95.8% during both conditions). CONCLUSION: Despite substantial AI, transcardiopulmonary thermodilution reliably measured CO under various cardiac preload conditions with a good ability to trend CO changes in a porcine model. CO(TCPTD) and CO(PAC) were interchangeable in substantial AI.
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spelling pubmed-56481932017-11-03 Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency Petzoldt, Martin Trepte, Constantin J. Ridder, Jan Maisch, Stefan Klapsing, Philipp Kersten, Jan F. Richter, Hans Peter Kubitz, Jens C. Reuter, Daniel A. Goepfert, Matthias S. PLoS One Research Article BACKGROUND: Monitoring cardiac output (CO) is important to optimize hemodynamic function in critically ill patients. The prevalence of aortic valve insufficiency (AI) is rising in the aging population. However, reliability of CO monitoring techniques in AI is unknown. The aim of this study was to investigate the impact of AI on accuracy, precision, and trending ability of transcardiopulmonary thermodilution-derived CO(TCPTD) in comparison with pulmonary artery catheter thermodilution CO(PAC). METHODS: Sixteen anesthetized domestic pigs were subjected to serial simultaneous measurements of CO(PAC) and CO(TCPTD). In a novel experimental model, AI was induced by retraction of an expanded Dormia basket in the aortic valve annulus. The Dormia basket was delivered via a Judkins catheter guided by substernal epicardial echocardiography. High (HPC), moderate (MPC) and low cardiac preload conditions (LPC) were induced by fluid unloading (20 ml kg(-1) blood withdrawal) and loading (subsequent retransfusion of the shed blood and additional infusion of 20 ml kg(-1) hydroxyethyl starch). Within each preload condition CO was measured before and after the onset of AI. For statistical analysis, we used a mixed model analysis of variance, Bland-Altman analysis, the percentage error and concordance analysis. RESULTS: Experimental AI had a mean regurgitant volume of 33.6 ± 12.0 ml and regurgitant fraction of 42.9 ± 12.6%. The percentage error between CO(TCPTD) and CO(PAC) during competent valve function and after induction of substantial AI was: HPC 17.7% vs. 20.0%, MPC 20.5% vs. 26.1%, LPC 26.5% vs. 28.1% (pooled data: 22.5% vs. 24.1%). The ability to trend CO-changes induced by fluid loading and unloading did not differ between baseline and AI (concordance rate 95.8% during both conditions). CONCLUSION: Despite substantial AI, transcardiopulmonary thermodilution reliably measured CO under various cardiac preload conditions with a good ability to trend CO changes in a porcine model. CO(TCPTD) and CO(PAC) were interchangeable in substantial AI. Public Library of Science 2017-10-19 /pmc/articles/PMC5648193/ /pubmed/29049339 http://dx.doi.org/10.1371/journal.pone.0186481 Text en © 2017 Petzoldt et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Petzoldt, Martin
Trepte, Constantin J.
Ridder, Jan
Maisch, Stefan
Klapsing, Philipp
Kersten, Jan F.
Richter, Hans Peter
Kubitz, Jens C.
Reuter, Daniel A.
Goepfert, Matthias S.
Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title_full Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title_fullStr Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title_full_unstemmed Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title_short Reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
title_sort reliability of transcardiopulmonary thermodilution cardiac output measurement in experimental aortic valve insufficiency
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5648193/
https://www.ncbi.nlm.nih.gov/pubmed/29049339
http://dx.doi.org/10.1371/journal.pone.0186481
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