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Unsupervised learning to characterize patients with known coronary artery disease undergoing myocardial perfusion imaging

by Bateman, Timothy M , Dey, Damini , Acampa, Wanda , Berman, Daniel S , Hauser, M. Timothy , Miller, Edward J , Slomka, Piotr J , Williams, Michelle C , Kwiecinski, Jacek , Bednarski, Bryan P , Shanbhag, Aakash , Dorbala, Sharmila , Liang, Joanna X , Di Carli, Marcelo F , Sinusas, Albert J , Ruddy, Terrence D , Kaufmann, Philipp A , Miller, Robert J. H , Einstein, Andrew J , Fish, Mathews B , Huang, Cathleen , Sharir, Tali , Pieszko, Konrad

in Body mass index / Body size / Cardiovascular disease / Cluster analysis / Computed tomography / Confidence intervals / Coronary artery disease / Coronary vessels / Diabetes mellitus / Dyslipidemia / Emission analysis / Heart diseases / Hypertension / Image acquisition / Image analysis / Image processing / Ischemia / Learning algorithms / Machine learning / Medical imaging / Mortality / Perfusion / Pharmacists / Phenotypes / Photon emission / Risk analysis / Single photon emission computed tomography / Unsupervised learning / Vein & artery diseases

2023

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Unsupervised learning to characterize patients with known coronary artery disease undergoing myocardial perfusion imaging

2023

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2023

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Journal Article

Unsupervised learning to characterize patients with known coronary artery disease undergoing myocardial perfusion imaging

Bateman, Timothy M,

Dey, Damini,

Acampa, Wanda,

Berman, Daniel S,

Hauser, M. Timothy,

Miller, Edward J,

Slomka, Piotr J,

Williams, Michelle C,

Kwiecinski, Jacek,

Bednarski, Bryan P,

Shanbhag, Aakash,

Dorbala, Sharmila,

Liang, Joanna X,

Di Carli, Marcelo F,

Sinusas, Albert J,

Ruddy, Terrence D,

Kaufmann, Philipp A,

Miller, Robert J. H,

Einstein, Andrew J,

Fish, Mathews B,

Huang, Cathleen,

Sharir, Tali,

Pieszko, Konrad

2023

Overview

PurposePatients with known coronary artery disease (CAD) comprise a heterogenous population with varied clinical and imaging characteristics. Unsupervised machine learning can identify new risk phenotypes in an unbiased fashion. We use cluster analysis to risk-stratify patients with known CAD undergoing single-photon emission computed tomography (SPECT) myocardial perfusion imaging (MPI).MethodsFrom 37,298 patients in the REFINE SPECT registry, we identified 9221 patients with known coronary artery disease. Unsupervised machine learning was performed using clinical (23), acquisition (17), and image analysis (24) parameters from 4774 patients (internal cohort) and validated with 4447 patients (external cohort). Risk stratification for all-cause mortality was compared to stress total perfusion deficit (< 5%, 5–10%, ≥10%).ResultsThree clusters were identified, with patients in Cluster 3 having a higher body mass index, more diabetes mellitus and hypertension, and less likely to be male, have dyslipidemia, or undergo exercise stress imaging (p < 0.001 for all). In the external cohort, during median follow-up of 2.6 [0.14, 3.3] years, all-cause mortality occurred in 312 patients (7%). Cluster analysis provided better risk stratification for all-cause mortality (Cluster 3: hazard ratio (HR) 5.9, 95% confidence interval (CI) 4.0, 8.6, p < 0.001; Cluster 2: HR 3.3, 95% CI 2.5, 4.5, p < 0.001; Cluster 1, reference) compared to stress total perfusion deficit (≥10%: HR 1.9, 95% CI 1.5, 2.5 p < 0.001; < 5%: reference).ConclusionsOur unsupervised cluster analysis in patients with known CAD undergoing SPECT MPI identified three distinct phenotypic clusters and predicted all-cause mortality better than ischemia alone.

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Publisher

Springer Nature B.V

Subject

Body mass index

/ Body size

/ Cardiovascular disease

/ Cluster analysis

/ Computed tomography

/ Confidence intervals

/ Coronary artery disease