Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device

Rahatullah Muslem; Chin S. Ong; Brett Tomashitis; Jessica N Schultz; Bhavadharini Ramu; Michael L. Craig; Adrian B. Van Bakel; Nisha A. Gilotra; Kavita Sharma; Steven Hsu; Glenn J. Whitman; Peter J. Leary; Rebecca Cogswell; Lucian Lozonschi; Brian A. Houston; Felix Zijlstra; Kadir Caliskan; Ad J.J.C. Bogers; Ryan J. Tedford

doi:10.1161/CIRCHEARTFAILURE.119.005923

Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device

Rahatullah Muslem, Chin S. Ong, Brett Tomashitis, Jessica N Schultz, Bhavadharini Ramu, Michael L. Craig, Adrian B. Van Bakel, Nisha A. Gilotra, Kavita Sharma, Steven Hsu, Glenn J. Whitman, Peter J. Leary, Rebecca Cogswell, Lucian Lozonschi, Brian A. Houston, Felix Zijlstra, Kadir Caliskan, Ad J.J.C. Bogers, Ryan J. Tedford

Medicine - Cardiology Division

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

Background: Acute right heart failure (RHF) after left ventricular assist device implantation remains a major source of morbidity and mortality, yet the definition of RHF and the preimplant variables that predict RHF remain controversial. This study evaluated the ability of (1) INTERMACS (Interagency Registry for Mechanically Assisted Circulatory Support) RHF classification to predict post-left ventricular assist device survival and (2) preoperative characteristics and hemodynamic parameters to predict severe and severe acute RHF. Methods and Results: An international, multicenter study at 4 large academic centers was conducted between 2008 and 2016. All subjects with hemodynamics measured by right heart catheterization within 30 days before left ventricular assist device implantation were included. RHF was defined using the INTERMACS definition for RHF. In total, 375 subjects were included (mean age, 57.4±13.2 years, 54% bridge-to-transplant). Mild RHF was most common (34%), followed by moderate RHF (16%), severe RHF (13%), and severe acute RHF (9%). Estimated on-device survival rates at 2 years were 72%, 71%, and 55% in the patients with none, mild-to-moderate, and severe-to-severe acute RHF, respectively (P=0.004). In addition, the independent hazard ratio for mortality was only increased in the patients with severe-to-severe acute RHF (hazard ratio, 3.95; 95% CI, 2.16-7.23; P<0.001). INTERMACS-defined RHF was superior to postimplant inotrope duration alone in the prediction of all-cause mortality. In multivariable analysis, older age, lower INTERMACS classes, and higher pulmonary arterial elastance (ratio of systolic pulmonary artery pressure to stroke volume) before left ventricular assist device, were identified as significant predictors of severe-to-severe acute RHF. Stratifying patients by ratio of systolic pulmonary artery pressure to stroke volume and right atrial pressure significantly improved the discrimination between patients at risk for severe-to-severe acute RHF. Conclusions: The INTERMACS RHF classification correctly identifies patients at risk for mortality, though this risk is only increased in patients with severe-to-severe acute RHF. Several predictors for RHF were identified, of which ratio of systolic pulmonary artery pressure to stroke volume was the strongest hemodynamic predictor. Coupling ratio of systolic pulmonary artery pressure to stroke volume with right atrial pressure may be most helpful in identifying patients at risk for severe-to-severe acute RHF.

Original language	English (US)
Article number	e005923
Journal	Circulation: Heart Failure
Volume	12
Issue number	8
DOIs	https://doi.org/10.1161/CIRCHEARTFAILURE.119.005923
State	Published - Aug 1 2019

Bibliographical note

Funding Information:
Dr Cogswell reports serving in the Heart Failure Advisory Board and as a consultant for Medtronic, and as a consultant and in the speakers bureau for Abbott Lab, Dr Houston grant support from Medtronic, Dr Tedford serves on a steering committee for Abbott and research advisory group for Abiomed and as a consultant for United Therapeutics and as hemodynamic core labs for Merck and Actelion. The other authors report no conflicts.

Publisher Copyright:
© 2019 Lippincott Williams and Wilkins. All rights reserved.

Keywords

heart failure
heart ventricles
heart-assist devices
hemodynamics
hypertension, pulmonary

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Muslem, R., Ong, C. S., Tomashitis, B., Schultz, J. N., Ramu, B., Craig, M. L., Van Bakel, A. B., Gilotra, N. A., Sharma, K., Hsu, S., Whitman, G. J., Leary, P. J., Cogswell, R., Lozonschi, L., Houston, B. A., Zijlstra, F., Caliskan, K., Bogers, A. J. J. C., & Tedford, R. J. (2019). Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device. Circulation: Heart Failure, 12(8), Article e005923. https://doi.org/10.1161/CIRCHEARTFAILURE.119.005923

Muslem, R, Ong, CS, Tomashitis, B, Schultz, JN, Ramu, B, Craig, ML, Van Bakel, AB, Gilotra, NA, Sharma, K, Hsu, S, Whitman, GJ, Leary, PJ, Cogswell, R, Lozonschi, L, Houston, BA, Zijlstra, F, Caliskan, K, Bogers, AJJC & Tedford, RJ 2019, 'Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device', Circulation: Heart Failure, vol. 12, no. 8, e005923. https://doi.org/10.1161/CIRCHEARTFAILURE.119.005923

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abstract = "Background: Acute right heart failure (RHF) after left ventricular assist device implantation remains a major source of morbidity and mortality, yet the definition of RHF and the preimplant variables that predict RHF remain controversial. This study evaluated the ability of (1) INTERMACS (Interagency Registry for Mechanically Assisted Circulatory Support) RHF classification to predict post-left ventricular assist device survival and (2) preoperative characteristics and hemodynamic parameters to predict severe and severe acute RHF. Methods and Results: An international, multicenter study at 4 large academic centers was conducted between 2008 and 2016. All subjects with hemodynamics measured by right heart catheterization within 30 days before left ventricular assist device implantation were included. RHF was defined using the INTERMACS definition for RHF. In total, 375 subjects were included (mean age, 57.4±13.2 years, 54% bridge-to-transplant). Mild RHF was most common (34%), followed by moderate RHF (16%), severe RHF (13%), and severe acute RHF (9%). Estimated on-device survival rates at 2 years were 72%, 71%, and 55% in the patients with none, mild-to-moderate, and severe-to-severe acute RHF, respectively (P=0.004). In addition, the independent hazard ratio for mortality was only increased in the patients with severe-to-severe acute RHF (hazard ratio, 3.95; 95% CI, 2.16-7.23; P<0.001). INTERMACS-defined RHF was superior to postimplant inotrope duration alone in the prediction of all-cause mortality. In multivariable analysis, older age, lower INTERMACS classes, and higher pulmonary arterial elastance (ratio of systolic pulmonary artery pressure to stroke volume) before left ventricular assist device, were identified as significant predictors of severe-to-severe acute RHF. Stratifying patients by ratio of systolic pulmonary artery pressure to stroke volume and right atrial pressure significantly improved the discrimination between patients at risk for severe-to-severe acute RHF. Conclusions: The INTERMACS RHF classification correctly identifies patients at risk for mortality, though this risk is only increased in patients with severe-to-severe acute RHF. Several predictors for RHF were identified, of which ratio of systolic pulmonary artery pressure to stroke volume was the strongest hemodynamic predictor. Coupling ratio of systolic pulmonary artery pressure to stroke volume with right atrial pressure may be most helpful in identifying patients at risk for severe-to-severe acute RHF.",

keywords = "heart failure, heart ventricles, heart-assist devices, hemodynamics, hypertension, pulmonary",

author = "Rahatullah Muslem and Ong, {Chin S.} and Brett Tomashitis and Schultz, {Jessica N} and Bhavadharini Ramu and Craig, {Michael L.} and {Van Bakel}, {Adrian B.} and Gilotra, {Nisha A.} and Kavita Sharma and Steven Hsu and Whitman, {Glenn J.} and Leary, {Peter J.} and Rebecca Cogswell and Lucian Lozonschi and Houston, {Brian A.} and Felix Zijlstra and Kadir Caliskan and Bogers, {Ad J.J.C.} and Tedford, {Ryan J.}",

note = "Funding Information: Dr Cogswell reports serving in the Heart Failure Advisory Board and as a consultant for Medtronic, and as a consultant and in the speakers bureau for Abbott Lab, Dr Houston grant support from Medtronic, Dr Tedford serves on a steering committee for Abbott and research advisory group for Abiomed and as a consultant for United Therapeutics and as hemodynamic core labs for Merck and Actelion. The other authors report no conflicts. Publisher Copyright: {\textcopyright} 2019 Lippincott Williams and Wilkins. All rights reserved.",

year = "2019",

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day = "1",

doi = "10.1161/CIRCHEARTFAILURE.119.005923",

language = "English (US)",

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journal = "Circulation: Heart Failure",

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TY - JOUR

T1 - Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device

AU - Muslem, Rahatullah

AU - Ong, Chin S.

AU - Tomashitis, Brett

AU - Schultz, Jessica N

AU - Ramu, Bhavadharini

AU - Craig, Michael L.

AU - Van Bakel, Adrian B.

AU - Gilotra, Nisha A.

AU - Sharma, Kavita

AU - Hsu, Steven

AU - Whitman, Glenn J.

AU - Leary, Peter J.

AU - Cogswell, Rebecca

AU - Lozonschi, Lucian

AU - Houston, Brian A.

AU - Zijlstra, Felix

AU - Caliskan, Kadir

AU - Bogers, Ad J.J.C.

AU - Tedford, Ryan J.

N1 - Funding Information: Dr Cogswell reports serving in the Heart Failure Advisory Board and as a consultant for Medtronic, and as a consultant and in the speakers bureau for Abbott Lab, Dr Houston grant support from Medtronic, Dr Tedford serves on a steering committee for Abbott and research advisory group for Abiomed and as a consultant for United Therapeutics and as hemodynamic core labs for Merck and Actelion. The other authors report no conflicts. Publisher Copyright: © 2019 Lippincott Williams and Wilkins. All rights reserved.

PY - 2019/8/1

Y1 - 2019/8/1

N2 - Background: Acute right heart failure (RHF) after left ventricular assist device implantation remains a major source of morbidity and mortality, yet the definition of RHF and the preimplant variables that predict RHF remain controversial. This study evaluated the ability of (1) INTERMACS (Interagency Registry for Mechanically Assisted Circulatory Support) RHF classification to predict post-left ventricular assist device survival and (2) preoperative characteristics and hemodynamic parameters to predict severe and severe acute RHF. Methods and Results: An international, multicenter study at 4 large academic centers was conducted between 2008 and 2016. All subjects with hemodynamics measured by right heart catheterization within 30 days before left ventricular assist device implantation were included. RHF was defined using the INTERMACS definition for RHF. In total, 375 subjects were included (mean age, 57.4±13.2 years, 54% bridge-to-transplant). Mild RHF was most common (34%), followed by moderate RHF (16%), severe RHF (13%), and severe acute RHF (9%). Estimated on-device survival rates at 2 years were 72%, 71%, and 55% in the patients with none, mild-to-moderate, and severe-to-severe acute RHF, respectively (P=0.004). In addition, the independent hazard ratio for mortality was only increased in the patients with severe-to-severe acute RHF (hazard ratio, 3.95; 95% CI, 2.16-7.23; P<0.001). INTERMACS-defined RHF was superior to postimplant inotrope duration alone in the prediction of all-cause mortality. In multivariable analysis, older age, lower INTERMACS classes, and higher pulmonary arterial elastance (ratio of systolic pulmonary artery pressure to stroke volume) before left ventricular assist device, were identified as significant predictors of severe-to-severe acute RHF. Stratifying patients by ratio of systolic pulmonary artery pressure to stroke volume and right atrial pressure significantly improved the discrimination between patients at risk for severe-to-severe acute RHF. Conclusions: The INTERMACS RHF classification correctly identifies patients at risk for mortality, though this risk is only increased in patients with severe-to-severe acute RHF. Several predictors for RHF were identified, of which ratio of systolic pulmonary artery pressure to stroke volume was the strongest hemodynamic predictor. Coupling ratio of systolic pulmonary artery pressure to stroke volume with right atrial pressure may be most helpful in identifying patients at risk for severe-to-severe acute RHF.

AB - Background: Acute right heart failure (RHF) after left ventricular assist device implantation remains a major source of morbidity and mortality, yet the definition of RHF and the preimplant variables that predict RHF remain controversial. This study evaluated the ability of (1) INTERMACS (Interagency Registry for Mechanically Assisted Circulatory Support) RHF classification to predict post-left ventricular assist device survival and (2) preoperative characteristics and hemodynamic parameters to predict severe and severe acute RHF. Methods and Results: An international, multicenter study at 4 large academic centers was conducted between 2008 and 2016. All subjects with hemodynamics measured by right heart catheterization within 30 days before left ventricular assist device implantation were included. RHF was defined using the INTERMACS definition for RHF. In total, 375 subjects were included (mean age, 57.4±13.2 years, 54% bridge-to-transplant). Mild RHF was most common (34%), followed by moderate RHF (16%), severe RHF (13%), and severe acute RHF (9%). Estimated on-device survival rates at 2 years were 72%, 71%, and 55% in the patients with none, mild-to-moderate, and severe-to-severe acute RHF, respectively (P=0.004). In addition, the independent hazard ratio for mortality was only increased in the patients with severe-to-severe acute RHF (hazard ratio, 3.95; 95% CI, 2.16-7.23; P<0.001). INTERMACS-defined RHF was superior to postimplant inotrope duration alone in the prediction of all-cause mortality. In multivariable analysis, older age, lower INTERMACS classes, and higher pulmonary arterial elastance (ratio of systolic pulmonary artery pressure to stroke volume) before left ventricular assist device, were identified as significant predictors of severe-to-severe acute RHF. Stratifying patients by ratio of systolic pulmonary artery pressure to stroke volume and right atrial pressure significantly improved the discrimination between patients at risk for severe-to-severe acute RHF. Conclusions: The INTERMACS RHF classification correctly identifies patients at risk for mortality, though this risk is only increased in patients with severe-to-severe acute RHF. Several predictors for RHF were identified, of which ratio of systolic pulmonary artery pressure to stroke volume was the strongest hemodynamic predictor. Coupling ratio of systolic pulmonary artery pressure to stroke volume with right atrial pressure may be most helpful in identifying patients at risk for severe-to-severe acute RHF.

KW - heart failure

KW - heart ventricles

KW - heart-assist devices

KW - hemodynamics

KW - hypertension, pulmonary

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Pulmonary arterial elastance and INTERMACS-defined right heart failure following left ventricular assist device

Abstract

Bibliographical note

Keywords

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