A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial

Masatake Kobayashi; Olivier Huttin; Joao Pedro Ferreira; Kevin Duarte; Arantxa Gonzalez; Stephane Heymans; Job A. J. Verdonschot; Hans-Peter Brunner-La Rocca; Pierpaolo L. Pellicori; Andrew Clark; Johannes Petutschnigg; Frank G. Edelmann; John Cleland; Patrick Rossignol; Faiez Zannad; Nicolas Girerd; HOMAGE Trial Committees and Investigators

doi:10.1002/ejhf.2859

A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial

Masatake Kobayashi, Olivier Huttin, Joao Pedro Ferreira, Kevin Duarte, Arantxa Gonzalez, Stephane Heymans, Job A. J. Verdonschot, Hans-Peter Brunner-La Rocca, Pierpaolo L. Pellicori, Andrew Clark, Johannes Petutschnigg, Frank G. Edelmann, John Cleland, Patrick Rossignol, Faiez Zannad, Nicolas Girerd^*, HOMAGE Trial Committees and Investigators

^*Corresponding author for this work

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

Abstract

AimAn echocardiographic algorithm derived by machine learning (e ' VM) characterizes pre-clinical individuals with different cardiac structure and function, biomarkers, and long-term risk of heart failure (HF). Our aim was the external validation of the e ' VM algorithm and to explore whether it may identify subgroups who benefit from spironolactone. Methods and resultsThe HOMAGE (Heart OMics in AGEing) trial enrolled participants at high risk of developing HF randomly assigned to spironolactone or placebo over 9 months. The e ' VM algorithm was applied to 416 participants (mean age 74 +/- 7 years, 25% women) with available echocardiographic variables (i.e. e ' mean, left ventricular end-diastolic volume and mass indexed by body surface area [LVMi]). The effects of spironolactone on changes in echocardiographic and biomarker variables were assessed across e ' VM phenotypes. A majority (>80%) had either a 'diastolic changes' (D), or 'diastolic changes with structural remodelling' (D/S) phenotype. The D/S phenotype had the highest LVMi, left atrial volume, E/e', natriuretic peptide and troponin levels (all p < 0.05). Spironolactone significantly reduced E/e' and B-type natriuretic peptide (BNP) levels in the D/S phenotype (p < 0.01), but not in other phenotypes (p > 0.10; p(interaction) <0.05 for both). These interactions were not observed when considering guideline-recommended echocardiographic structural and functional abnormalities. The magnitude of effects of spironolactone on LVMi, left atrial volume and a type I collagen marker was numerically higher in the D/S phenotype than the D phenotype but the interaction test did not reach significance. ConclusionsIn the HOMAGE trial, the e ' VM algorithm identified echocardiographic phenotypes with distinct responses to spironolactone as assessed by changes in E/e' and BNP.

Original language	English
Pages (from-to)	1284-1289
Number of pages	6
Journal	European journal of heart failure
Volume	25
Issue number	8
Early online date	1 Apr 2023
DOIs	https://doi.org/10.1002/ejhf.2859
Publication status	Published - Aug 2023

Keywords

Heart failure
Echocardiogram
Collagen
Spironolactone
Biomarkers
PRESERVED EJECTION FRACTION
EUROPEAN ASSOCIATION
AMERICAN SOCIETY
DIASTOLIC FUNCTION
RECOMMENDATIONS
DYSFUNCTION
UPDATE
ADULTS

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Kobayashi, M., Huttin, O., Ferreira, J. P., Duarte, K., Gonzalez, A., Heymans, S., Verdonschot, J. A. J., Brunner-La Rocca, H.-P., Pellicori, P. L., Clark, A., Petutschnigg, J., Edelmann, F. G., Cleland, J., Rossignol, P., Zannad, F., Girerd, N., & HOMAGE Trial Committees and Investigators (2023). A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial. European journal of heart failure, 25(8), 1284-1289. https://doi.org/10.1002/ejhf.2859

@article{d286a74621ed4027972afa22b9bf20dc,

title = "A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial",

abstract = "AimAn echocardiographic algorithm derived by machine learning (e ' VM) characterizes pre-clinical individuals with different cardiac structure and function, biomarkers, and long-term risk of heart failure (HF). Our aim was the external validation of the e ' VM algorithm and to explore whether it may identify subgroups who benefit from spironolactone. Methods and resultsThe HOMAGE (Heart OMics in AGEing) trial enrolled participants at high risk of developing HF randomly assigned to spironolactone or placebo over 9 months. The e ' VM algorithm was applied to 416 participants (mean age 74 +/- 7 years, 25% women) with available echocardiographic variables (i.e. e ' mean, left ventricular end-diastolic volume and mass indexed by body surface area [LVMi]). The effects of spironolactone on changes in echocardiographic and biomarker variables were assessed across e ' VM phenotypes. A majority (>80%) had either a 'diastolic changes' (D), or 'diastolic changes with structural remodelling' (D/S) phenotype. The D/S phenotype had the highest LVMi, left atrial volume, E/e', natriuretic peptide and troponin levels (all p < 0.05). Spironolactone significantly reduced E/e' and B-type natriuretic peptide (BNP) levels in the D/S phenotype (p < 0.01), but not in other phenotypes (p > 0.10; p(interaction) <0.05 for both). These interactions were not observed when considering guideline-recommended echocardiographic structural and functional abnormalities. The magnitude of effects of spironolactone on LVMi, left atrial volume and a type I collagen marker was numerically higher in the D/S phenotype than the D phenotype but the interaction test did not reach significance. ConclusionsIn the HOMAGE trial, the e ' VM algorithm identified echocardiographic phenotypes with distinct responses to spironolactone as assessed by changes in E/e' and BNP.",

keywords = "Heart failure, Echocardiogram, Collagen, Spironolactone, Biomarkers, PRESERVED EJECTION FRACTION, EUROPEAN ASSOCIATION, AMERICAN SOCIETY, DIASTOLIC FUNCTION, RECOMMENDATIONS, DYSFUNCTION, UPDATE, ADULTS",

author = "Masatake Kobayashi and Olivier Huttin and Ferreira, {Joao Pedro} and Kevin Duarte and Arantxa Gonzalez and Stephane Heymans and Verdonschot, {Job A. J.} and {Brunner-La Rocca}, Hans-Peter and Pellicori, {Pierpaolo L.} and Andrew Clark and Johannes Petutschnigg and Edelmann, {Frank G.} and John Cleland and Patrick Rossignol and Faiez Zannad and Nicolas Girerd and {HOMAGE Trial Committees and Investigators}",

year = "2023",

month = aug,

doi = "10.1002/ejhf.2859",

language = "English",

volume = "25",

pages = "1284--1289",

journal = "European journal of heart failure",

issn = "1388-9842",

publisher = "John Wiley & Sons Inc.",

number = "8",

}

Kobayashi, M, Huttin, O, Ferreira, JP, Duarte, K, Gonzalez, A, Heymans, S , Verdonschot, JAJ , Brunner-La Rocca, H-P, Pellicori, PL, Clark, A, Petutschnigg, J, Edelmann, FG, Cleland, J, Rossignol, P, Zannad, F, Girerd, N & HOMAGE Trial Committees and Investigators 2023, 'A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial', European journal of heart failure, vol. 25, no. 8, pp. 1284-1289. https://doi.org/10.1002/ejhf.2859

A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial. / Kobayashi, Masatake; Huttin, Olivier; Ferreira, Joao Pedro et al.
In: European journal of heart failure, Vol. 25, No. 8, 08.2023, p. 1284-1289.

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

TY - JOUR

T1 - A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial

AU - Kobayashi, Masatake

AU - Huttin, Olivier

AU - Ferreira, Joao Pedro

AU - Duarte, Kevin

AU - Gonzalez, Arantxa

AU - Heymans, Stephane

AU - Verdonschot, Job A. J.

AU - Brunner-La Rocca, Hans-Peter

AU - Pellicori, Pierpaolo L.

AU - Clark, Andrew

AU - Petutschnigg, Johannes

AU - Edelmann, Frank G.

AU - Cleland, John

AU - Rossignol, Patrick

AU - Zannad, Faiez

AU - Girerd, Nicolas

AU - HOMAGE Trial Committees and Investigators

PY - 2023/8

Y1 - 2023/8

N2 - AimAn echocardiographic algorithm derived by machine learning (e ' VM) characterizes pre-clinical individuals with different cardiac structure and function, biomarkers, and long-term risk of heart failure (HF). Our aim was the external validation of the e ' VM algorithm and to explore whether it may identify subgroups who benefit from spironolactone. Methods and resultsThe HOMAGE (Heart OMics in AGEing) trial enrolled participants at high risk of developing HF randomly assigned to spironolactone or placebo over 9 months. The e ' VM algorithm was applied to 416 participants (mean age 74 +/- 7 years, 25% women) with available echocardiographic variables (i.e. e ' mean, left ventricular end-diastolic volume and mass indexed by body surface area [LVMi]). The effects of spironolactone on changes in echocardiographic and biomarker variables were assessed across e ' VM phenotypes. A majority (>80%) had either a 'diastolic changes' (D), or 'diastolic changes with structural remodelling' (D/S) phenotype. The D/S phenotype had the highest LVMi, left atrial volume, E/e', natriuretic peptide and troponin levels (all p < 0.05). Spironolactone significantly reduced E/e' and B-type natriuretic peptide (BNP) levels in the D/S phenotype (p < 0.01), but not in other phenotypes (p > 0.10; p(interaction) <0.05 for both). These interactions were not observed when considering guideline-recommended echocardiographic structural and functional abnormalities. The magnitude of effects of spironolactone on LVMi, left atrial volume and a type I collagen marker was numerically higher in the D/S phenotype than the D phenotype but the interaction test did not reach significance. ConclusionsIn the HOMAGE trial, the e ' VM algorithm identified echocardiographic phenotypes with distinct responses to spironolactone as assessed by changes in E/e' and BNP.

AB - AimAn echocardiographic algorithm derived by machine learning (e ' VM) characterizes pre-clinical individuals with different cardiac structure and function, biomarkers, and long-term risk of heart failure (HF). Our aim was the external validation of the e ' VM algorithm and to explore whether it may identify subgroups who benefit from spironolactone. Methods and resultsThe HOMAGE (Heart OMics in AGEing) trial enrolled participants at high risk of developing HF randomly assigned to spironolactone or placebo over 9 months. The e ' VM algorithm was applied to 416 participants (mean age 74 +/- 7 years, 25% women) with available echocardiographic variables (i.e. e ' mean, left ventricular end-diastolic volume and mass indexed by body surface area [LVMi]). The effects of spironolactone on changes in echocardiographic and biomarker variables were assessed across e ' VM phenotypes. A majority (>80%) had either a 'diastolic changes' (D), or 'diastolic changes with structural remodelling' (D/S) phenotype. The D/S phenotype had the highest LVMi, left atrial volume, E/e', natriuretic peptide and troponin levels (all p < 0.05). Spironolactone significantly reduced E/e' and B-type natriuretic peptide (BNP) levels in the D/S phenotype (p < 0.01), but not in other phenotypes (p > 0.10; p(interaction) <0.05 for both). These interactions were not observed when considering guideline-recommended echocardiographic structural and functional abnormalities. The magnitude of effects of spironolactone on LVMi, left atrial volume and a type I collagen marker was numerically higher in the D/S phenotype than the D phenotype but the interaction test did not reach significance. ConclusionsIn the HOMAGE trial, the e ' VM algorithm identified echocardiographic phenotypes with distinct responses to spironolactone as assessed by changes in E/e' and BNP.

KW - Heart failure

KW - Echocardiogram

KW - Collagen

KW - Spironolactone

KW - Biomarkers

KW - PRESERVED EJECTION FRACTION

KW - EUROPEAN ASSOCIATION

KW - AMERICAN SOCIETY

KW - DIASTOLIC FUNCTION

KW - RECOMMENDATIONS

KW - DYSFUNCTION

KW - UPDATE

KW - ADULTS

U2 - 10.1002/ejhf.2859

DO - 10.1002/ejhf.2859

M3 - Article

C2 - 37062878

SN - 1388-9842

VL - 25

SP - 1284

EP - 1289

JO - European journal of heart failure

JF - European journal of heart failure

IS - 8

ER -

Kobayashi M, Huttin O, Ferreira JP, Duarte K, Gonzalez A, Heymans S et al. A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial. European journal of heart failure. 2023 Aug;25(8):1284-1289. Epub 2023 Apr 1. doi: 10.1002/ejhf.2859

A machine learning-derived echocardiographic algorithm identifies people at risk of heart failure with distinct cardiac structure, function, and response to spironolactone: findings from the HOMAGE trial

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Keywords

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