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基于第二心音时频表征特征的神经网络分析对肺动脉压的估计

Estimation of pulmonary arterial pressure by a neural network analysis using features based on time-frequency representations of the second heart sound.

作者信息

Tranulis C, Durand L G, Senhadji L, Pibarot P

机构信息

Laboratoire de génie biomédical, Institut de recherches cliniques de Montréal, Quebec, Canada.

出版信息

Med Biol Eng Comput. 2002 Mar;40(2):205-12. doi: 10.1007/BF02348126.

DOI:10.1007/BF02348126
PMID:12043802
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1941762/
Abstract

The objective of the study was to develop a non-invasive method for the estimation of pulmonary arterial pressure (PAP) using a neural network (NN) and features extracted from the second heart sound (S2). To obtain the information required to train and test the NN, an animal model of pulmonary hypertension (PHT) was developed, and nine pigs were investigated. During the experiments, the electrocardiogram, phonocardiogram and PAP were recorded. Subsequently, between 15 and 50 S2 heart sounds were isolated for each PAP stage and for each animal studied. A Coiflet wavelet decomposition and a pseudo smoothed Wigner-Ville distribution were used to extract features from the S2 sounds and train a one-hidden-layer NN using two-thirds of the data. The NN performance was tested on the remaining one-third of the data. NN estimates of the systolic and mean PAPs were obtained for each S2 and then ensemble averaged over the 15-50 S2 sounds selected for each PAP stage. The standard errors between the mean and systolic PAPs estimated by the NN and those measured with a catheter were 6.0 mmHg and 8.4 mmHg, respectively, and the correlation coefficients were 0.89 and 0.86, respectively. The classification accuracy, using 23 mmHg mean PAP and 30 mmHg systolic PAP thresholds between normal PAP and PHT, was 97% and 91%, respectively.

摘要

本研究的目的是开发一种非侵入性方法,利用神经网络(NN)和从第二心音(S2)提取的特征来估计肺动脉压(PAP)。为了获取训练和测试NN所需的信息,建立了肺动脉高压(PHT)动物模型,并对9头猪进行了研究。在实验过程中,记录了心电图、心音图和PAP。随后,针对每个PAP阶段和每头研究动物,分离出15至50个S2心音。使用Coiflet小波分解和伪平滑维格纳-威利分布从S2声音中提取特征,并使用三分之二的数据训练单隐藏层NN。NN的性能在其余三分之一的数据上进行测试。针对每个S2获得NN对收缩期和平均PAP的估计值,然后对为每个PAP阶段选择的15至50个S2声音进行总体平均。NN估计的平均PAP和收缩期PAP与导管测量值之间的标准误差分别为6.0 mmHg和8.4 mmHg,相关系数分别为0.89和0.86。使用23 mmHg平均PAP和30 mmHg收缩期PAP作为正常PAP和PHT之间的阈值,分类准确率分别为97%和91%。

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