The role of artificial intelligence in standardizing global longitudinal strain measurements in echocardiography.

European heart journal. Imaging methods and practice Pub Date : 2024-12-06 eCollection Date: 2024-10-01 DOI:10.1093/ehjimp/qyae130

Krunoslav M Sveric, Roxana Botan, Anna Winkler, Zouhir Dindane, Ghatafan Alothman, Baris Cansiz, Jens Fassl, Michael Kaliske, Axel Linke

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Abstract

Aims: To evaluate the accuracy and feasibility of artificial intelligence (AI) in left ventricular global longitudinal strain (GLS) analysis as compared to conventional (Manual) and semi-automated (SemiAuto) method in echocardiography (Echo).

Methods and results: GLS validation was performed on 550 standard Echo exams by expert cardiologists. The performance of a beginner cardiologist without experience of GLS analysis was assessed on a subset of 90 exams. The AI employs fully automated view selection, classification, endocardial border tracing, and calculation of GLS from an entire Echo exam, while SemiAuto requires manual chamber view selection, and Manual involves full user input. Interobserver agreement was assessed using the intraclass correlation coefficient (ICC) for all three methods. Agreement of measures included Pearson's correlation (R) and Bland-Altman analysis [median bias; limits of agreement (LOA)]. With an 89% feasibility the AI showed good agreement with Manual (R = 0.92, bias = 0.7% and LOA: -3.5 to 4.8%) and with SemiAuto (r = 0.90, bias = 0.10% and LOA: -4.5 to 4%). ICCs for GLS were 1.0 for AI, 0.93 for SemiAuto, and 0.80 for Manual. After the 55th analysis, the beginner showed stable time performance with Manual (171 s), contrasting with the consistent performance of SemiAuto (85-69 s) from the beginning. The highest agreement between beginner and expert readers was achieved with AI (R = 1.00), followed by SemiAuto (R = 0.85) and Manual (R = 0.74).

Conclusion: Automated GLS analysis enhances efficiency and accuracy in cardiac diagnostics, particularly for novice users. Integration of automated solutions into routine clinical practice could yield more standardized results.

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人工智能在超声心动图纵向应变测量标准化中的作用。

目的：评价人工智能（AI）在超声心动图（Echo）中左心室整体纵向应变（GLS）分析中的准确性和可行性，并与传统（Manual）和半自动（semi-auto）方法进行比较。方法与结果：由心脏科专家对550例标准超声检查进行GLS验证。没有GLS分析经验的初级心脏病专家的表现在90个测试的子集上进行评估。人工智能采用全自动视图选择、分类、心内膜边界跟踪和从整个Echo检查中计算GLS，而半自动需要手动选择腔室视图，手动需要完全用户输入。使用所有三种方法的类内相关系数（ICC）评估观察者间的一致性。测量结果的一致性包括Pearson相关(R)和Bland-Altman分析[中位偏差；协议限度[LOA]。在89%的可行性下，人工智能与Manual （R = 0.92，偏差= 0.7%,LOA: -3.5至4.8%）和semi - auto （R = 0.90，偏差= 0.10%,LOA: -4.5至4%）表现出良好的一致性。人工智能的GLS ICCs为1.0，半自动为0.93，手动为0.80。经过第55次分析，初学者在Manual上表现出稳定的时间表现（171秒），而SemiAuto从一开始就表现出稳定的时间表现（85-69秒）。初学者和专家读者之间的一致性最高的是AI (R = 1.00)，其次是半自动（R = 0.85）和手动（R = 0.74）。结论：自动化GLS分析提高了心脏诊断的效率和准确性，特别是对于新手用户。将自动化解决方案集成到常规临床实践中可以产生更标准化的结果。

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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European heart journal. Imaging methods and practice

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