Title :
Comparison of entropy-based regularity estimators: application to the fetal heart rate signal for the identification of fetal distress
Author :
Ferrario, Manuela ; Signorini, Maria G. ; Magenes, Giovanni ; Cerutti, Sergio
Author_Institution :
Dipt. di Bioingegneria, Univ. Politecnico di Milano, Italy
Abstract :
This paper considers the multiscale entropy (MSE) approach for estimating the regularity of time series at different scales. Sample entropy (SampEn) and approximate entropy (ApEn) are evaluated in MSE analysis on simulated data to enhance the main features of both estimators. We applied the approximate entropy and the sample entropy estimators to fetal heart rate signals on both single and multiple scales for an early identification of fetal sufferance antepartum. Our results show that the ApEn index significantly distinguishes suffering from normal fetuses between the 30th and the 35th week of gestation. Furthermore, our data shows that the MSE entropy values are reliable indicators of the fetal distress associated with the presence of a pathological condition at birth.
Keywords :
cardiology; entropy; medical signal processing; obstetrics; time series; approximate entropy; entropy-based regularity estimators; fetal distress; fetal heart rate signal; fetal sufferance antepartum; multiscale entropy; sample entropy; time series; Analytical models; Character generation; Data analysis; Entropy; Fetal heart rate; Heart rate variability; Pathology; Pediatrics; Pregnancy; Signal processing; Cardiotocography; fetal heart rate; fetal pathologies; nonlinear parameters; spectral analysis; Algorithms; Cardiotocography; Diagnosis, Computer-Assisted; Entropy; Fetal Distress; Fetal Heart; Heart Rate, Fetal; Reproducibility of Results; Sensitivity and Specificity;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2005.859809
