Clinical applicability of an artificial intelligence prediction algorithm for early prediction of non-persistent atrial fibrillation

Kim, Yeji; Joo, Gihun; Jeon, Bo-Kyung; Kim, Dong-Hyeok; Shin, Tae Young; Im, Hyeonseung; Park, Junbeom

doi:10.3389/fcvm.2023.1168054

Front. Cardiovasc. Med.

2023

DOI: 10.3389/fcvm.2023.1168054

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Clinical applicability of an artificial intelligence prediction algorithm for early prediction of non-persistent atrial fibrillation

Yeji Kim,

Gihun Joo,

Bo-Kyung Jeon

et al.

Abstract: Background and aimsIt is difficult to document atrial fibrillation (AF) on ECG in patients with non-persistent atrial fibrillation (non-PeAF). There is limited understanding of whether an AI prediction algorithm could predict the occurrence of non-PeAF from the information of normal sinus rhythm (SR) of a 12-lead ECG. This study aimed to derive a precise predictive AI model for screening non-PeAF using SR ECG within 4 weeks.MethodsThis retrospective cohort study included patients aged 18 to 99 with SR ECG on 1… Show more

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2024

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Cited by 2 publications

References 26 publications

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Medical Data Analysis Using AutoML Frameworks

Shin,

Park,

et al. 2024

J. Electr. Eng. Technol.

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Medical Data Analysis Using AutoML Frameworks

Shin,

Park,

et al. 2024

J. Electr. Eng. Technol.

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Screening Tool for Paroxysmal Atrial Fibrillation Based on a Deep-Learning Algorithm Using Printed 12-Lead Electrocardiographic Records during Sinus Rhythm

Zhou,

Zhang,

Chen

et al. 2024

Rev. Cardiovasc. Med.

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Background: Recent advancements in artificial intelligence (AI) have significantly improved atrial fibrillation (AF) detection using electrocardiography (ECG) data obtained during sinus rhythm (SR). However, the utility of printed ECG (pECG) records for AF detection, particularly in developing countries, remains unexplored. This study aims to assess the efficacy of an AI-based screening tool for paroxysmal AF (PAF) using pECGs during SR. Methods: We analyzed 5688 printed 12-lead SR-ECG records from 2192 patients admitted to Beijing Chaoyang Hospital between May 2011 to August 2022. All patients underwent catheter ablation for PAF (AF group) or other electrophysiological procedures (non-AF group). We developed a deep learning model to detect PAF from these printed SR-ECGs. The 2192 patients were randomly assigned to training (1972, 57.3% with PAF), validation (108, 57.4% with PAF), and test datasets (112, 57.1% with PAF). We developed an applet to digitize the printed ECG data and display the results within a few seconds. Our evaluation focused on sensitivity, specificity, accuracy, F1 score, the area under the receiver-operating characteristic curve (AUROC), and precision-recall curves (PRAUC). Results: The PAF detection algorithm demonstrated strong performance: sensitivity 87.5%, specificity 66.7%, accuracy 78.6%, F1 score 0.824, AUROC 0.871 and PRAUC 0.914. A gradient-weighted class activation map (Grad-CAM) revealed the model’s tailored focus on different ECG areas for personalized PAF detection. Conclusions: The deep-learning analysis of printed SR-ECG records shows high accuracy in PAF detection, suggesting its potential as a reliable screening tool in real-world clinical practice.

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Clinical applicability of an artificial intelligence prediction algorithm for early prediction of non-persistent atrial fibrillation

Cited by 2 publications

References 26 publications

Medical Data Analysis Using AutoML Frameworks

Medical Data Analysis Using AutoML Frameworks

Screening Tool for Paroxysmal Atrial Fibrillation Based on a Deep-Learning Algorithm Using Printed 12-Lead Electrocardiographic Records during Sinus Rhythm

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