Derivation of an artificial intelligence-based electrocardiographic model for the detection of acute coronary occlusive myocardial infarction.

Archivos de cardiologia de Mexico Pub Date : 2025-02-28 DOI:10.24875/ACM.24000195

Braiana A Díaz-Herrera, Edgar Roman-Rangel, Carlos A Castro-García, Daniel Sierra-Lara Martinez, Rodrigo Gopar-Nieto, Karen G Velez-Talavera, María P Espinosa-Martínez, Santiago March-Mifsut, Ximena Latapi-Ruiz-Esparza, Oscar U Preciado-Gutierrez, Santiago Alba-Valencia, Héctor A Sánchez-Alfaro, Héctor Gonzalez-Pacheco, Alexandra Arias-Mendoza, Diego Araiza-Garaygordobil

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Abstract

Objectives: We aimed to assess the performance of an artificial intelligence-electrocardiogram (AI-ECG)-based model capable of detecting acute coronary occlusion myocardial infarction (ACOMI) in the setting of patients with acute coronary syndrome (ACS).

Methods: This was a prospective, observational, longitudinal, and single-center study including patients with the initial diagnosis of ACS (both ST-elevation acute myocardial infarction [STEMI] & non-ST-segment elevation myocardial infarction [NSTEMI]). To train the deep learning model in recognizing ACOMI, manual digitization of a patient's ECG was conducted using smartphone cameras of varying quality. We relied on the use of convolutional neural networks as the AI models for the classification of ECG examples. ECGs were also independently evaluated by two expert cardiologists blinded to clinical outcomes; each was asked to determine (a) whether the patient had a STEMI, based on universal criteria or (b) if STEMI criteria were not met, to identify any other ECG finding suggestive of ACOMI. ACOMI was defined by coronary angiography findings meeting any of the following three criteria: (a) total thrombotic occlusion, (b) TIMI thrombus grade 2 or higher + TIMI grade flow 1 or less, or (c) the presence of a subocclusive lesion (> 95% angiographic stenosis) with TIMI grade flow < 3. Patients were classified into four groups: STEMI + ACOMI, NSTEMI + ACOMI, STEMI + non-ACOMI, and NSTEMI + non-ACOMI.

Results: For the primary objective of the study, AI outperformed human experts in both NSTEMI and STEMI, with an area under the curve (AUC) of 0.86 (95% confidence interval [CI] 0.75-0.98) for identifying ACOMI, compared with ECG experts using their experience (AUC: 0.33, 95% CI 0.17-0.49) or under universal STEMI criteria (AUC: 0.50, 95% CI 0.35-0.54), (p value for AUC receiver operating characteristic comparison < 0.001). The AI model demonstrated a PPV of 0.84 and an NPV of 1.0.

Conclusion: Our AI-ECG model demonstrated a higher diagnostic precision for the detection of ACOMI compared with experts and the use of STEMI criteria. Further research and external validation are needed to understand the role of AI-based models in the setting of ACS.

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基于人工智能的急性冠状动脉闭塞性心肌梗死心电图检测模型的推导。

目的：我们旨在评估一种基于人工智能心电图（AI-ECG）的模型的性能，该模型能够在急性冠脉综合征（ACS）患者的环境中检测急性冠状动脉闭塞性心肌梗死（ACOMI）。方法：这是一项前瞻性、观察性、纵向、单中心研究，纳入了初始诊断为ACS的患者（st段抬高型急性心肌梗死[STEMI]和非st段抬高型心肌梗死[NSTEMI]）。为了训练深度学习模型识别ACOMI，使用不同质量的智能手机摄像头对患者的心电图进行了手动数字化。我们依靠使用卷积神经网络作为人工智能模型来对ECG样本进行分类。心电图也由两位不了解临床结果的心脏病专家独立评估；每个人都被要求确定(a)患者是否有STEMI，基于通用标准，或(b)如果STEMI标准不符合，以确定任何其他提示ACOMI的ECG发现。ACOMI的定义是冠状动脉造影结果满足以下三个标准中的任何一个：(a)血栓完全闭塞，(b) TIMI血栓2级或以上+ TIMI血流1级或以下，或(c)存在亚闭塞病变（> 95%血管造影狭窄），TIMI血流< 3级。将患者分为STEMI + ACOMI、NSTEMI + ACOMI、STEMI +非ACOMI和NSTEMI +非ACOMI四组。结果：对于本研究的主要目标，人工智能在NSTEMI和STEMI方面的表现都优于人类专家，在识别ACOMI方面，人工智能的曲线下面积（AUC）为0.86(95%置信区间[CI] 0.75-0.98)，与使用经验的ECG专家（AUC: 0.33, 95% CI 0.17-0.49）或通用STEMI标准（AUC: 0.50, 95% CI 0.35-0.54）相比（AUC接受者工作特征比较的p值< 0.001）。人工智能模型的PPV为0.84，NPV为1.0。结论：与专家和STEMI标准相比，我们的AI-ECG模型对ACOMI的诊断精度更高。需要进一步的研究和外部验证来了解基于人工智能的模型在ACS设置中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Archivos de cardiologia de Mexico

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