Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Koichi Akiyama
  • Paolo C Colombo
  • Eric J Stöhr
  • Ruiping Ji
  • Isaac Y Wu
  • Keiichi Itatani
  • Shohei Miyazaki
  • Teruyasu Nishino
  • Naotoshi Nakamura
  • Yasufumi Nakajima
  • Barry J McDonnell
  • Koji Takeda
  • Melana Yuzefpolskaya
  • Hiroo Takayama

Externe Organisationen

  • Kindai University Hospital
  • Columbia University Irving Medical Center
  • University of Rochester
  • Nagoya City University
  • Cardio Flow Design
  • Universität Nagoya
  • Cardiff Metropolitan University
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer1093576
FachzeitschriftFrontiers in cardiovascular medicine
Jahrgang10
PublikationsstatusVeröffentlicht - 16 Mai 2023

Abstract

Objectives: Right ventricular (RV) failure remains a major concern in heart failure (HF) patients undergoing left ventricular assist device (LVAD) implantation. We aimed to measure the kinetic energy of blood in the RV outflow tract (KE-RVOT) – a new marker of RV global systolic function. We also aimed to assess the relationship of KE-RVOT to other echocardiographic parameters in all subjects and assess the relationship of KE-RVOT to hemodynamic parameters of RV performance in HF patients. Methods: Fifty-one subjects were prospectively enrolled into 4 groups (healthy controls, NYHA Class II, NYHA Class IV, LVAD patients) as follows: 11 healthy controls, 32 HF patients (8 NYHA Class II and 24 Class IV), and 8 patients with preexisting LVADs. The 24 Class IV HF patients included 21 pre-LVAD and 3 pre-transplant patients. Echocardiographic parameters of RV function (TAPSE, St', Et', IVA, MPI) and RV outflow color-Doppler images were recorded in all patients. Invasive hemodynamic parameters of RV function were collected in all Class IV HF patients. KE-RVOT was derived from color-Doppler imaging using a vector flow mapping proprietary software. Kruskal-Wallis test was performed for comparison of KE-RVOT in each group. Correlation between KE-RVOT and echocardiographic/hemodynamic parameters was assessed by linear regression analysis. Receiver operating characteristic curves for the ability of KE-RVOT to predict early phase RV failure were generated. Results: KE-RVOT (median ± IQR) was higher in healthy controls (55.10 [39.70 to 76.43] mW/m) than in the Class II HF group (22.23 [15.41 to 35.58] mW/m, p < 0.005). KE-RVOT was further reduced in the Class IV HF group (9.02 [5.33 to 11.94] mW/m, p < 0.05). KE-RVOT was lower in the LVAD group (25.03 [9.88 to 38.98] mW/m) than the healthy controls group (p < 0.005). KE-RVOT had significant correlation with all echocardiographic parameters and no correlation with invasive hemodynamic parameters. RV failure occurred in 12 patients who underwent LVAD implantation in the Class IV HF group (1 patient was not eligible due to death immediately after the LVAD implantation). KE-RVOT cut-off value for prediction of RV failure was 9.15 mW/m (sensitivity: 0.67, specificity: 0.75, AUC: 0.66). Conclusions: KE-RVOT, a novel noninvasive measure of RV function, strongly correlates with well-established echocardiographic markers of RV performance. KE-RVOT is the energy generated by RV wall contraction. Therefore, KE-RVOT may reflect global RV function. The utility of KE-RVOT in prediction of RV failure post LVAD implantation requires further study.

ASJC Scopus Sachgebiete

Zitieren

Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy. / Akiyama, Koichi; Colombo, Paolo C; Stöhr, Eric J et al.
in: Frontiers in cardiovascular medicine, Jahrgang 10, 1093576, 16.05.2023.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Akiyama, K, Colombo, PC, Stöhr, EJ, Ji, R, Wu, IY, Itatani, K, Miyazaki, S, Nishino, T, Nakamura, N, Nakajima, Y, McDonnell, BJ, Takeda, K, Yuzefpolskaya, M & Takayama, H 2023, 'Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy', Frontiers in cardiovascular medicine, Jg. 10, 1093576. https://doi.org/10.3389/fcvm.2023.1093576
Akiyama, K., Colombo, P. C., Stöhr, E. J., Ji, R., Wu, I. Y., Itatani, K., Miyazaki, S., Nishino, T., Nakamura, N., Nakajima, Y., McDonnell, B. J., Takeda, K., Yuzefpolskaya, M., & Takayama, H. (2023). Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy. Frontiers in cardiovascular medicine, 10, Artikel 1093576. https://doi.org/10.3389/fcvm.2023.1093576
Akiyama K, Colombo PC, Stöhr EJ, Ji R, Wu IY, Itatani K et al. Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy. Frontiers in cardiovascular medicine. 2023 Mai 16;10:1093576. doi: 10.3389/fcvm.2023.1093576
Download
@article{400c439c1f164504a65da52bf1bbb418,
title = "Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy",
abstract = "Objectives: Right ventricular (RV) failure remains a major concern in heart failure (HF) patients undergoing left ventricular assist device (LVAD) implantation. We aimed to measure the kinetic energy of blood in the RV outflow tract (KE-RVOT) – a new marker of RV global systolic function. We also aimed to assess the relationship of KE-RVOT to other echocardiographic parameters in all subjects and assess the relationship of KE-RVOT to hemodynamic parameters of RV performance in HF patients. Methods: Fifty-one subjects were prospectively enrolled into 4 groups (healthy controls, NYHA Class II, NYHA Class IV, LVAD patients) as follows: 11 healthy controls, 32 HF patients (8 NYHA Class II and 24 Class IV), and 8 patients with preexisting LVADs. The 24 Class IV HF patients included 21 pre-LVAD and 3 pre-transplant patients. Echocardiographic parameters of RV function (TAPSE, St', Et', IVA, MPI) and RV outflow color-Doppler images were recorded in all patients. Invasive hemodynamic parameters of RV function were collected in all Class IV HF patients. KE-RVOT was derived from color-Doppler imaging using a vector flow mapping proprietary software. Kruskal-Wallis test was performed for comparison of KE-RVOT in each group. Correlation between KE-RVOT and echocardiographic/hemodynamic parameters was assessed by linear regression analysis. Receiver operating characteristic curves for the ability of KE-RVOT to predict early phase RV failure were generated. Results: KE-RVOT (median ± IQR) was higher in healthy controls (55.10 [39.70 to 76.43] mW/m) than in the Class II HF group (22.23 [15.41 to 35.58] mW/m, p < 0.005). KE-RVOT was further reduced in the Class IV HF group (9.02 [5.33 to 11.94] mW/m, p < 0.05). KE-RVOT was lower in the LVAD group (25.03 [9.88 to 38.98] mW/m) than the healthy controls group (p < 0.005). KE-RVOT had significant correlation with all echocardiographic parameters and no correlation with invasive hemodynamic parameters. RV failure occurred in 12 patients who underwent LVAD implantation in the Class IV HF group (1 patient was not eligible due to death immediately after the LVAD implantation). KE-RVOT cut-off value for prediction of RV failure was 9.15 mW/m (sensitivity: 0.67, specificity: 0.75, AUC: 0.66). Conclusions: KE-RVOT, a novel noninvasive measure of RV function, strongly correlates with well-established echocardiographic markers of RV performance. KE-RVOT is the energy generated by RV wall contraction. Therefore, KE-RVOT may reflect global RV function. The utility of KE-RVOT in prediction of RV failure post LVAD implantation requires further study.",
keywords = "echocardiography, kinetic energy, left ventricular assist device, right ventricular failure, vector flow mapping",
author = "Koichi Akiyama and Colombo, {Paolo C} and St{\"o}hr, {Eric J} and Ruiping Ji and Wu, {Isaac Y} and Keiichi Itatani and Shohei Miyazaki and Teruyasu Nishino and Naotoshi Nakamura and Yasufumi Nakajima and McDonnell, {Barry J} and Koji Takeda and Melana Yuzefpolskaya and Hiroo Takayama",
note = "Funding Information: Hiroo Takayama was supported by the Thoracic Surgery Foundation grant. ( https://thoracicsurgeryfoundation.org/2017awards/ ). ",
year = "2023",
month = may,
day = "16",
doi = "10.3389/fcvm.2023.1093576",
language = "English",
volume = "10",

}

Download

TY - JOUR

T1 - Blood flow kinetic energy is a novel marker for right ventricular global systolic function in patients with left ventricular assist device therapy

AU - Akiyama, Koichi

AU - Colombo, Paolo C

AU - Stöhr, Eric J

AU - Ji, Ruiping

AU - Wu, Isaac Y

AU - Itatani, Keiichi

AU - Miyazaki, Shohei

AU - Nishino, Teruyasu

AU - Nakamura, Naotoshi

AU - Nakajima, Yasufumi

AU - McDonnell, Barry J

AU - Takeda, Koji

AU - Yuzefpolskaya, Melana

AU - Takayama, Hiroo

N1 - Funding Information: Hiroo Takayama was supported by the Thoracic Surgery Foundation grant. ( https://thoracicsurgeryfoundation.org/2017awards/ ).

PY - 2023/5/16

Y1 - 2023/5/16

N2 - Objectives: Right ventricular (RV) failure remains a major concern in heart failure (HF) patients undergoing left ventricular assist device (LVAD) implantation. We aimed to measure the kinetic energy of blood in the RV outflow tract (KE-RVOT) – a new marker of RV global systolic function. We also aimed to assess the relationship of KE-RVOT to other echocardiographic parameters in all subjects and assess the relationship of KE-RVOT to hemodynamic parameters of RV performance in HF patients. Methods: Fifty-one subjects were prospectively enrolled into 4 groups (healthy controls, NYHA Class II, NYHA Class IV, LVAD patients) as follows: 11 healthy controls, 32 HF patients (8 NYHA Class II and 24 Class IV), and 8 patients with preexisting LVADs. The 24 Class IV HF patients included 21 pre-LVAD and 3 pre-transplant patients. Echocardiographic parameters of RV function (TAPSE, St', Et', IVA, MPI) and RV outflow color-Doppler images were recorded in all patients. Invasive hemodynamic parameters of RV function were collected in all Class IV HF patients. KE-RVOT was derived from color-Doppler imaging using a vector flow mapping proprietary software. Kruskal-Wallis test was performed for comparison of KE-RVOT in each group. Correlation between KE-RVOT and echocardiographic/hemodynamic parameters was assessed by linear regression analysis. Receiver operating characteristic curves for the ability of KE-RVOT to predict early phase RV failure were generated. Results: KE-RVOT (median ± IQR) was higher in healthy controls (55.10 [39.70 to 76.43] mW/m) than in the Class II HF group (22.23 [15.41 to 35.58] mW/m, p < 0.005). KE-RVOT was further reduced in the Class IV HF group (9.02 [5.33 to 11.94] mW/m, p < 0.05). KE-RVOT was lower in the LVAD group (25.03 [9.88 to 38.98] mW/m) than the healthy controls group (p < 0.005). KE-RVOT had significant correlation with all echocardiographic parameters and no correlation with invasive hemodynamic parameters. RV failure occurred in 12 patients who underwent LVAD implantation in the Class IV HF group (1 patient was not eligible due to death immediately after the LVAD implantation). KE-RVOT cut-off value for prediction of RV failure was 9.15 mW/m (sensitivity: 0.67, specificity: 0.75, AUC: 0.66). Conclusions: KE-RVOT, a novel noninvasive measure of RV function, strongly correlates with well-established echocardiographic markers of RV performance. KE-RVOT is the energy generated by RV wall contraction. Therefore, KE-RVOT may reflect global RV function. The utility of KE-RVOT in prediction of RV failure post LVAD implantation requires further study.

AB - Objectives: Right ventricular (RV) failure remains a major concern in heart failure (HF) patients undergoing left ventricular assist device (LVAD) implantation. We aimed to measure the kinetic energy of blood in the RV outflow tract (KE-RVOT) – a new marker of RV global systolic function. We also aimed to assess the relationship of KE-RVOT to other echocardiographic parameters in all subjects and assess the relationship of KE-RVOT to hemodynamic parameters of RV performance in HF patients. Methods: Fifty-one subjects were prospectively enrolled into 4 groups (healthy controls, NYHA Class II, NYHA Class IV, LVAD patients) as follows: 11 healthy controls, 32 HF patients (8 NYHA Class II and 24 Class IV), and 8 patients with preexisting LVADs. The 24 Class IV HF patients included 21 pre-LVAD and 3 pre-transplant patients. Echocardiographic parameters of RV function (TAPSE, St', Et', IVA, MPI) and RV outflow color-Doppler images were recorded in all patients. Invasive hemodynamic parameters of RV function were collected in all Class IV HF patients. KE-RVOT was derived from color-Doppler imaging using a vector flow mapping proprietary software. Kruskal-Wallis test was performed for comparison of KE-RVOT in each group. Correlation between KE-RVOT and echocardiographic/hemodynamic parameters was assessed by linear regression analysis. Receiver operating characteristic curves for the ability of KE-RVOT to predict early phase RV failure were generated. Results: KE-RVOT (median ± IQR) was higher in healthy controls (55.10 [39.70 to 76.43] mW/m) than in the Class II HF group (22.23 [15.41 to 35.58] mW/m, p < 0.005). KE-RVOT was further reduced in the Class IV HF group (9.02 [5.33 to 11.94] mW/m, p < 0.05). KE-RVOT was lower in the LVAD group (25.03 [9.88 to 38.98] mW/m) than the healthy controls group (p < 0.005). KE-RVOT had significant correlation with all echocardiographic parameters and no correlation with invasive hemodynamic parameters. RV failure occurred in 12 patients who underwent LVAD implantation in the Class IV HF group (1 patient was not eligible due to death immediately after the LVAD implantation). KE-RVOT cut-off value for prediction of RV failure was 9.15 mW/m (sensitivity: 0.67, specificity: 0.75, AUC: 0.66). Conclusions: KE-RVOT, a novel noninvasive measure of RV function, strongly correlates with well-established echocardiographic markers of RV performance. KE-RVOT is the energy generated by RV wall contraction. Therefore, KE-RVOT may reflect global RV function. The utility of KE-RVOT in prediction of RV failure post LVAD implantation requires further study.

KW - echocardiography

KW - kinetic energy

KW - left ventricular assist device

KW - right ventricular failure

KW - vector flow mapping

UR - http://www.scopus.com/inward/record.url?scp=85161064729&partnerID=8YFLogxK

U2 - 10.3389/fcvm.2023.1093576

DO - 10.3389/fcvm.2023.1093576

M3 - Article

C2 - 37260947

VL - 10

JO - Frontiers in cardiovascular medicine

JF - Frontiers in cardiovascular medicine

SN - 2297-055X

M1 - 1093576

ER -

Von denselben Autoren