Fetal Well-being Evaluation by Determination of High Frequency Measurement Noise for Fetal Heart Rate Signal.
- Author:
In Yang PARK
1
;
Dae Young CHUNG
;
Jong Chul SHIN
;
Soo Pyung KIM
;
Young Bo SIM
;
Seung Hwan KIM
Author Information
1. Department of Obstetric and Gynecology, Medical College, Catholic University, Seoul, Korea. mamacare@catholic.ac.kr
- Publication Type:Original Article
- Keywords:
Fetal heart rate;
Measurement noise;
Nonlinear time series analysis;
Embedding dimension;
Correlation dimension;
Fetal distress
- MeSH:
Female;
Fetal Distress;
Fetal Heart*;
Fetus;
Heart Rate, Fetal*;
Humans;
Hydrogen-Ion Concentration;
Noise*;
Pregnancy;
Umbilical Arteries
- From:Korean Journal of Obstetrics and Gynecology
2005;48(12):2797-2806
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
OBJECTIVE: This study was done to propose a new method of determining the cutoff frequency against measurement noise in fetal heart rate signal and to analyze the discriminating value for normal fetus (pH>7.15) and abnormal fetus (pH< or =7.15) by nonlinear method. METHODS: The patients were classified by umbilical artery pH (7.15) or base excess (-10 mEq/L). After removing the high frequency noise components at the cutoff frequency determined in this study, we calculated correlation dimension as a discriminating value for the normal and abnormal fetuses. RESULTS: After low pass filtering of fetal heart rate signal at the cutoff frequency, the numerical result of embedding dimension was 5.47+/-0.67 (normal), 4.43+/-0.60 (abnormal) (p<0.001), and correlation dimension was 2.51+/-0.43 (normal), 1.79+/-0.15 (abnormal). CONCLUSION: We could determine the cutoff frequency from the different fluctuation level between high frequency noise and principal signal according the cutoff frequency function. The detection of fetal distress was done objectively by this method. We could discriminate between normal fetus and abnormal fetus by correlation dimension as indicator for the nonlinear complexity.
