Maternal Cardiovascular Responses to Position Change in Pregnancy.
Alys R ClarkHanna FontinhaJohn M D ThompsonSophie CouperDevanshi JaniSeyed Ali MirjaliliMary E SlingoPeter R StonePublished in: Biology (2023)
The maternal cardiovascular-circulatory system undergoes profound changes almost from the conception of a pregnancy until the postpartum period to support the maternal adaptions required for pregnancy and lactation. Maintenance of cardiovascular homeostasis requires changes in the cardiovascular autonomic responses. Here, we present a longitudinal study of the maternal cardiovascular autonomic responses to pregnancy and maternal position. Over a normal gestation, in the left lateral position there are significant changes in both time and frequency domain parameters reflecting heart rate variability. We show that cardiovascular autonomic responses to physiological stressors (standing and supine positions in late pregnancy) became significantly different with advancing gestation. In the third trimester, 60% of the subjects had an unstable heart rate response on standing, and these subjects had a significantly reduced sample entropy evident in their heart rate variability data. By 6 weeks, postpartum function returned to near the non-pregnant state, but there were consistent differences in high-frequency power when compared to nulligravid cases. Finally, we review complementary evidence, in particular from magnetic resonance imaging, that provides insights into the maternal and fetal impacts of positioning in pregnancy. This demonstrates a clear relationship between supine position and maternal hemodynamic parameters, which relates to compression of the inferior vena cava ( p = 0.05). Together, these studies demonstrate new understanding of the physiology of physiological stressors related to position.
Keyphrases
- heart rate variability
- pregnancy outcomes
- heart rate
- pregnant women
- birth weight
- preterm birth
- gestational age
- high frequency
- blood pressure
- magnetic resonance imaging
- inferior vena cava
- preterm infants
- computed tomography
- pulmonary embolism
- physical activity
- machine learning
- minimally invasive
- extracorporeal membrane oxygenation
- big data
- human milk