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. 2024 Nov;6(11):e791-e802.
doi: 10.1016/S2589-7500(24)00172-9.

Artificial intelligence-enabled electrocardiogram for mortality and cardiovascular risk estimation: a model development and validation study

Arunashis Sau  1 Libor Pastika  2 Ewa Sieliwonczyk  3 Konstantinos Patlatzoglou  2 Antônio H Ribeiro  4 Kathryn A McGurk  5 Boroumand Zeidaabadi  2 Henry Zhang  2 Krzysztof Macierzanka  2 Danilo Mandic  6 Ester Sabino  7 Luana Giatti  7 Sandhi M Barreto  8 Lidyane do Valle Camelo  8 Ioanna Tzoulaki  9 Declan P O'Regan  10 Nicholas S Peters  1 James S Ware  5 Antonio Luiz P Ribeiro  11 Daniel B Kramer  12 Jonathan W Waks  13 Fu Siong Ng  14
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Free article

Artificial intelligence-enabled electrocardiogram for mortality and cardiovascular risk estimation: a model development and validation study

Arunashis Sau et al. Lancet Digit Health. 2024 Nov.
Free article

Erratum in

Abstract

Background: Artificial intelligence (AI)-enabled electrocardiography (ECG) can be used to predict risk of future disease and mortality but has not yet been adopted into clinical practice. Existing model predictions do not have actionability at an individual patient level, explainability, or biological plausibi. We sought to address these limitations of previous AI-ECG approaches by developing the AI-ECG risk estimator (AIRE) platform.

Methods: The AIRE platform was developed in a secondary care dataset (Beth Israel Deaconess Medical Center [BIDMC]) of 1 163 401 ECGs from 189 539 patients with deep learning and a discrete-time survival model to create a patient-specific survival curve with a single ECG. Therefore, AIRE predicts not only risk of mortality, but also time-to-mortality. AIRE was validated in five diverse, transnational cohorts from the USA, Brazil, and the UK (UK Biobank [UKB]), including volunteers, primary care patients, and secondary care patients.

Findings: AIRE accurately predicts risk of all-cause mortality (BIDMC C-index 0·775, 95% CI 0·773-0·776; C-indices on external validation datasets 0·638-0·773), future ventricular arrhythmia (BIDMC C-index 0·760, 95% CI 0·756-0·763; UKB C-index 0·719, 95% CI 0·635-0·803), future atherosclerotic cardiovascular disease (0·696, 0·694-0·698; 0·643, 0·624-0·662), and future heart failure (0·787, 0·785-0·789; 0·768, 0·733-0·802). Through phenome-wide and genome-wide association studies, we identified candidate biological pathways for the prediction of increased risk, including changes in cardiac structure and function, and genes associated with cardiac structure, biological ageing, and metabolic syndrome.

Interpretation: AIRE is an actionable, explainable, and biologically plausible AI-ECG risk estimation platform that has the potential for use worldwide across a wide range of clinical contexts for short-term and long-term risk estimation.

Funding: British Heart Foundation, National Institute for Health and Care Research, and Medical Research Council.

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Conflict of interest statement

Declaration of interests JWW was previously on the advisory board for Heartcor Solutions and reports research funding from Anumana. DPO’R reports grants, consulting fees, and support from Bayer, Calico, and Bristol Myers Squibb. JSW reports research grants from Bristol Myers Squibb and Pfizer and is on the clinical advisory group for Cardiomyopathy UK. FSN reports speaker fees from GE Healthcare and is on the advisory board for AstraZeneca. All other authors declare no competing interests.

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