Abstract
Late intrauterine growth restriction (IUGR) is a fetal pathological condition characterized by chronic hypoxia secondary to placental insufficiency, resulting in an abnormal rate of fetal growth. This pathology has been associated with increased fetal and neonatal morbidity and mortality. In standard clinical practice, late IUGR diagnosis can only be suspected in the third trimester and ultimately confirmed at birth. This study presents a radial basis function support vector machine (RBF-SVM) classification based on quantitative features extracted from fetal heart rate (FHR) signals acquired using routine cardiotocography (CTG) in a population of 160 healthy and 102 late IUGR fetuses. First, the individual performance of each time, frequency, and nonlinear feature was tested. To improve the unsatisfactory results of univariate analysis we firstly adopted a Recursive Feature Elimination approach to select the best subset of FHR-based parameters contributing to the discrimination of healthy vs. late IUGR fetuses. A fine tuning of the RBF-SVM model parameters resulted in a satisfactory classification performance in the training set (accuracy 0.93, sensitivity 0.93, specificity 0.84). Comparable results were obtained when applying the model on a totally independent testing set. This investigation supports the use of a multivariate approach for the in utero identification of late IUGR condition based on quantitative FHR features encompassing different domains. The proposed model allows describing the relationships among features beyond the traditional linear approaches, thus improving the classification performance. This framework has the potential to be proposed as a screening tool for the identification of late IUGR fetuses.
Highlights
Antenatal fetal heart rate (FHR) is a widely used tool to monitor fetal wellbeing (Chen et al, 2011)
Correlation among all pairs of features was performed: 1) short and longer term MTd features were moderately correlated; 2) short term variability measured in the different domains: Approximate Entropy (ApEn), Sample Entropy (SampEn), HF_pow, LZC_bin, and LZC_ter was highly correlated as expected given their definitions; 3) ApEn, SampEn, Lempel Ziv Complexity (LZC) parameters did not exhibit any relationship with Phase Rectified Signal Averaging (PRSA)-derived features; 4) ACs and DCs at different scales exhibited marked negative correlations; 5) Deceleration Reserve (DR) were weakly positive correlated with the corresponding DCs but not with ACs
Classification accuracy, sensitivity, and specificity were equal to 0.9208 (0.9012, 0.9413), 0.9247 (0.9018, 0.9493), and 0.7905 (0.7492, 0.8322); 0.8077 (0.7187, 0.8784), 0.8125, and 0.8000 in the training/testing and validation sets, respectively. This contribution aims at promoting the application of machine learning methodologies in the context of fetal and perinatal medicine, following the growing trend of the artificial intelligence application in medicine (Topol, 2019; Ghassemi et al, 2019)
Summary
Antenatal fetal heart rate (FHR) is a widely used tool to monitor fetal wellbeing (Chen et al, 2011). The assessment of fetal heart rate variability (HRV) has been reported to inform on the functional state of the autonomic nervous system (ANS), providing an indication on the fetal development throughout pregnancy. In the context of fetal pathological states, intrauterine growth restriction (IUGR) is one of the most relevant complications of pregnancy and it has been reported to alter HRV. Monitor Emergence of Late IUGR (Huhn et al, 2011; Signorini et al, 2020b). IUGR is associated with a decreased rate of fetal growth, which is the result of an abnormal supply of maternal nutrients and placental transfer to the fetus. The two phenotypes of IUGR (early and late) can be identified based on onset, evolution, Doppler parameters modifications, and postnatal outcome (Esposito et al, 2019)
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