Abstract
Because fetal gas exchange takes place via the maternal placenta, there has been growing interests in investigating the patterns and directions of maternal-fetal cardiac coupling to better understand the mechanisms of placental gas transfer. We recently reported the evidence of short-term maternal–fetal cardiac couplings in normal fetuses by using Normalized Short Time Partial Directed Coherence (NSTPDC) technique. Our results have shown weakening of coupling from fetal heart rate to maternal heart rate as the fetal development progresses while the influence from maternal to fetal heart rate coupling behaves oppositely as it shows increasing coupling strength that reaches its maximum at mid gestation. The aim of this study is to test if maternal-fetal coupling patterns change in various types of abnormal cases of pregnancies. We applied NSTPDC on simultaneously recorded fetal and maternal beat-by-beat heart rates collected from fetal and maternal ECG signals of 66 normal and 19 abnormal pregnancies. NSTPDC fetal-to-maternal coupling analyses revealed significant differences between the normal and abnormal cases (normal: normalized factor (NF) = −0.21 ± 0.85, fetus-to-mother coupling area (A_fBBI→ mBBI) = 0.44 ± 0.13, mother-to-fetus coupling area (A_mBBI→ fBBI) = 0.46 ± 0.12; abnormal: NF = −1.66 ± 0.77, A_fBBI→ mBBI = 0.08 ± 0.12, A_mBBI→ fBBI = 0.66 ± 0.24; p < 0.01). In conclusion, maternal-fetal cardiac coupling strength and direction and their associations with regulatory mechanisms (patterns) of developing autonomic nervous system function could be novel clinical markers of healthy prenatal development and its deviation. However, further research is required on larger samples of abnormal cases.
Highlights
Fetal development in utero is crucially linked with adequate placental blood circulation because oxygenated blood is transferred across placenta to fetal circulation through umbilical cord from maternal cardiovascular system (Wang, 2010)
In that study we reported that a causal influence of fetal heart rate on maternal heart rate significantly decreased from early to mid-gestation age along with a significant increase of maternal to fetal heart rate
Ten abnormal cases had some types of congenital heart defects (CHD) (ID: 8, 9, 11, 12, 14–19), two with AV block (ID: 8, 17) and two with Tachycardia (ID: 6, 13)
Summary
Fetal development in utero is crucially linked with adequate placental blood circulation because oxygenated blood is transferred across placenta to fetal circulation through umbilical cord from maternal cardiovascular system (Wang, 2010). Fetal–maternal heart rate phase synchronization was investigated in different settings, including controlled maternal respiration and maternal aerobic exercise (Van Leeuwen et al, 2009, 2014). Results of those studies suggested that high maternal breathing rate might induce the synchronization as it occurred significantly more often at fast maternal breathing and less at slow respiratory rates (Van Leeuwen et al, 2009). Determination of the underlying mechanisms and patterns required further investigation of the coupling and its directionality (fetal to maternal and vice versa)
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