| Title | Linear and complex heart rate dynamics vary with sex in relation to fetal behavioural states |
| Publication Type | Journal Article |
| 2008 |
| Authors | Bernardes, J, Gonçalves, H, Ayres-de-Campos, D, Rocha, AP |
| Journal | Early Human DevelopmentEarly Hum. Dev. |
| Volume | 84 |
| Issue | 7 |
| Pagination | 433 - 439 |
| Date Published | 2008/// |
| 03783782 (ISSN) |
| article, Behavior, Cardiotocography, comparative study, Computerized analysis, Entropy and spectral analysis, Female, Fetal behavioural states and sex, Fetal heart rate, Fetal monitoring, Fetal Movement, fetus, fetus heart rate, Gestational Age, heart hemodynamics, Heart Rate, Fetal, human, Humans, male, normal human, Pregnancy, Pregnancy Outcome, Sex Characteristics, sex difference, SisPorto |
| Background: A better understanding of gender influences on fetal heart rate can help to improve analysis of the latter and perhaps elucidate the increased risk of perinatal death that occurs in males. Aim: To assess differences in linear and complex heart rate dynamics according to fetal sex, in the antepartum period of normal term pregnancies, for patterns associated with fetal behavioural states. Study design and subjects: One hundred and eighty seven fetal heart rate segments of 10-minute duration, acquired with a system for computerized analysis of cardiotocograms and classified into fetal behavioural patterns A, B, C or D were analysed. They had been acquired from 24 female and 23 male term fetuses, with uneventful perinatal outcomes. Four different comparative studies between female and male fetuses were conducted, considering different adjustments for gestational age, weight and FHR pattern. Outcome measures: Indices of linear and nonlinear fetal heart rate variability, namely, long-term irregularity index, very low, low and high frequency spectral indices, approximate entropy and sample entropy. Results: Pattern B was the most frequent, both in female and male fetuses. Pattern A was more likely to be associated to female than male fetuses, whereas the opposite occurred with patterns C and D. Linear indices were significantly higher in male than in female fetuses, whereas the opposite occurred with nonlinear indices. Conclusions: Male fetuses exhibited significantly more linear and significantly less complex fetal heart rate activity than female fetuses, expressing signs of a more active autonomous nervous system and of less active complexity control systems. These aspects may need to be considered when interpreting FHR tracings. © 2007 Elsevier Ireland Ltd. All rights reserved. |
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