Placental syndromes and maternal cardiovascular health.

The placental syndromes gestational hypertension, preeclampsia and intrauterine growth restriction are associated with an increased cardiovascular risk to the mother later in life. In this review, we argue that a woman's pre-conception cardiovascular health drives both the development of placental syndromes and long-term cardiovascular risk but acknowledge that placental syndromes can also contribute to future cardiovascular risk independent of pre-conception health. We describe how preclinical studies in models of preeclampsia inform our understanding of the links with later cardiovascular disease, and how current pre-pregnancy studies may explain relative contributions of both pre-conception factors and the occurrence of placental syndromes to long-term cardiovascular disease.

B-type natriuretic peptide in low-risk pregnancy and pregnancy with congenital heart disease.

OBJECTIVE: To perform a longitudinal assessment of B-type natriuretic peptide (BNP) and its association with cardiac function in low-risk pregnant women and in pregnant women with congenital heart disease (CHD). METHODS: Longitudinal study in low-risk pregnancy and pregnancy in women with CHD seen at 10-14, 18-22, and 30-34 weeks of pregnancy for BNP quantification and exercise studies using impedance cardiography (ICG). RESULTS: Forty-three low-risk women with longitudinal samples (129 samples, 43 in each trimester) and 30 pregnant women with CHD with convenience samples (first trimester, five samples; second trimester, 20 samples; third trimester, 21 samples) were included. Women with CHD delivered earlier by 6 days (P = 0.002) and their newborns had lower birth weight independent of gestational age (birth weight centile 30.0 vs 55.0, P = 0.005). In low-risk women, BNP levels were lower in the third trimester (P < 0.001). There were no statistically significant differences in BNP concentrations across trimesters in the CHD group, no differences in BNP concentrations between the two groups, and no significant correlations between BNP concentration in each trimester with cardiac output, stroke volume, or heart rate (at rest/with exercise). CONCLUSION: This study assessed BNP longitudinally in the first, second and third trimesters in singleton low-risk pregnancy, and showed that BNP concentration decreased with advancing gestational age, with no participants with levels greater than 40.0 pg/mL in the third trimester. BNP concentrations were similar in women with and without congenital heart disease. We found no correlation between circulating levels of BNP and maternal hemodynamics at rest or with exercise measured by ICG to support its use as a marker of cardiac function.

Preeclampsia: Maternal cardiovascular function and optimising outcomes.

Preeclampsia is associated with cardiac dysfunction, not only during the clinical phase of the disease, but also after delivery, with long term implications for both maternal and neonatal cardiovascular health. An abnormal cardiovascular phenotype also precedes conception, indicating that pre-existing cardiovascular dysfunction is associated with the development of preeclampsia. This review summarises the changes in cardiovascular function in preeclampsia, examining the evidence for when cardiovascular dysfunction develops and presenting the evidence for two phenotypes - one associated with fetal growth restriction, low cardiac output and high peripheral resistance, and a second associated with normal fetal growth, high cardiac output and low peripheral resistance. The presence of a cardiovascular phenotype that precedes conception demonstrates the potential for prevention of preeclampsia through cardiovascular optimisation at this stage. The two phenotypes mean therapy can be targeted to optimising cardiovascular function. The prevention and effective treatment of preeclampsia are essential aspects of improving maternal and neonatal cardiovascular health in the long term.