冠状动脉缺血的非充血评估:机器学习技术的应用。

IF 3.9 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS European heart journal. Digital health Pub Date : 2022-12-01 DOI:10.1093/ehjdh/ztac050
James N Cameron, Andrea Comella, Nigel Sutherland, Adam J Brown, Thanh G Phan
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摘要

目的:充血和非充血压比(NHPR)通常用于识别重要的冠状动脉病变。机器学习(ML)技术可能有助于更好地理解这些指标,并指导未来的实践。本研究评估了专用ML算法在非充血期间对冠状动脉缺血进行分类的能力,并与现有的金标准技术(分数血流储备,FFR)进行了比较。此外,它还研究了ML是否可以识别指示缺血的冠状动脉和主动脉压力周期的成分。方法和结果:使用监督和非监督学习技术结合主成分分析(PCA)评估77例冠状动脉病变(39例FFR定义为缺血,53例患者)近端和远端非充血压力波形和FFR值。从右冠状动脉(13)、左前降支(46)、左旋支(11)、左主干(1)、斜主干(2)和斜主干(4)获得了血流储备的分数。最准确的监督学习分类利用了全周期主动脉和舒张期远端血压波形,分类准确率为86.9%(敏感性86.8%,特异性87.2%,阳性预测值86.8%,阴性预测值87.2%)。主成分分析显示,舒张开始时冠状动脉压力的细微变化与缺血有显著关系,全周期主动脉压力数据对确定缺血很重要。结论:我们的ML算法对重要的冠状动脉病变进行分类,其准确性与之前比较时域nhpr和FFR的研究相似。此外,它还确定了与功能相关的压力波形的特征。这些结果提供了ML在缺血中的应用,只需要来自非充血压力测量的标准数据。
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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Non-hyperaemic assessment of coronary ischaemia: application of machine learning techniques.

Aims: Hyperaemic and non-hyperaemic pressure ratios (NHPR) are routinely used to identify significant coronary lesions. Machine learning (ML) techniques may help better understand these indices and guide future practice. This study assessed the ability of a purpose-built ML algorithm to classify coronary ischaemia during non-hyperaemia compared with the existing gold-standard technique (fractional flow reserve, FFR). Further, it investigated whether ML could identify components of coronary and aortic pressure cycles indicative of ischaemia.

Methods and results: Seventy-seven coronary vessel lesions (39 FFR defined ischaemia, 53 patients) with proximal and distal non-hyperaemic pressure waveforms and FFR values were assessed using supervised and unsupervised learning techniques in combination with principal component analysis (PCA). Fractional flow reserve measurements were obtained from the right coronary artery (13), left anterior descending (46), left circumflex (11), left main (1), obtuse marginal (2), and diagonal (4). The most accurate supervised learning classification utilized whole-cycle aortic with diastolic distal blood pressure waveforms, yielding a classification accuracy of 86.9% (sensitivity 86.8%, specificity 87.2%, positive predictive value 86.8%, negative predictive value 87.2%). Principal component analysis showed subtle variations in coronary pressures at the start of diastole have significant relation to ischaemia, and whole-cycle aortic pressure data are important for determining ischaemia.

Conclusions: Our ML algorithm classifies significant coronary lesions with accuracy similar to previous studies comparing time-domain NHPRs with FFR. Further, it has identified characteristics of pressure waveforms that relate to function. These results provide an application of ML to ischaemia requiring only standard data from non-hyperaemic pressure measurements.

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