数据驱动的特征选择和机器学习用于在记录12导联心电图时检测V1和V2胸电极位置错误。
Data driven feature selection and machine learning to detect misplaced V1 and V2 chest electrodes when recording the 12‑lead electrocardiogram.
作者信息
Rjoob Khaled, Bond Raymond, Finlay Dewar, McGilligan Victoria, Leslie Stephen J, Iftikhar Aleeha, Guldenring Daniel, Rababah Ali, Knoery Charles, McShane Anne, Peace Aaron
机构信息
Faculty of Computing, Engineering & Built Environment, Ulster University, Northern Ireland, UK.
Faculty of Computing, Engineering & Built Environment, Ulster University, Northern Ireland, UK.
出版信息
J Electrocardiol. 2019 Nov-Dec;57:39-43. doi: 10.1016/j.jelectrocard.2019.08.017. Epub 2019 Aug 24.
BACKGROUND
Electrocardiogram (ECG) lead misplacement can adversely affect ECG diagnosis and subsequent clinical decisions. V1 and V2 are commonly placed superior of their correct position. The aim of the current study was to use machine learning approaches to detect V1 and V2 lead misplacement to enhance ECG data quality.
METHOD
ECGs for 453 patients, (normal n = 151, Left Ventricular Hypertrophy (LVH) n = 151, Myocardial Infarction n = 151) were extracted from body surface potential maps. These were used to extract both the correct and incorrectly placed V1 and V2 leads. The prevalence for correct and incorrect leads were 50%. Sixteen features were extracted in three different domains: time-based, statistical and time-frequency features using a wavelet transform. A hybrid feature selection approach was applied to select an optimal set of features. To ensure optimal model selection, five classifiers were used and compared. The aforementioned feature selection approach and classifiers were applied for V1 and V2 misplacement in three different positions: first, second and third intercostal spaces (ICS).
RESULTS
The accuracy for V1 misplacement detection was 93.9%, 89.3%, 72.8% in the first, second and third ICS respectively. In V2, the accuracy was 93.6%, 86.6% and 68.1% in the first, second and third ICS respectively. There is a noticeable decline in accuracy when detecting misplacement in the third ICS which is expected.
背景
心电图(ECG)导联放置错误会对心电图诊断及后续临床决策产生不利影响。V1和V2导联通常放置在其正确位置的上方。本研究的目的是使用机器学习方法检测V1和V2导联放置错误,以提高心电图数据质量。
方法
从体表电位图中提取453例患者的心电图(正常151例,左心室肥厚151例,心肌梗死151例)。这些心电图用于提取正确放置和错误放置的V1和V2导联。正确和错误导联的发生率均为50%。使用小波变换在三个不同领域提取了16个特征:基于时间的、统计的和时频特征。应用一种混合特征选择方法来选择一组最优特征。为确保选择最优模型,使用并比较了五个分类器。上述特征选择方法和分类器应用于V1和V2导联在三个不同位置的放置错误检测:第一、第二和第三肋间间隙(ICS)。
结果
在第一、第二和第三肋间间隙检测V1导联放置错误的准确率分别为93.9%、89.3%、72.8%。在第二肋间间隙检测V2导联放置错误的准确率分别为93.6%、86.6%和68.1%。在第三肋间间隙检测放置错误时准确率有明显下降,这是预期的。
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