First-trimester maternal haemodynamic adaptation to pregnancy and placental, embryonic and fetal development: the prospective observational Rotterdam Periconception cohort.

OBJECTIVE: To investigate whether first-trimester maternal haemodynamic adaptation impacts placental, embryonic and fetal development as well as birth outcomes in pregnancies with and without placenta-related complications. DESIGN: Prospective observational cohort. SETTING: A Dutch tertiary hospital. POPULATION: Two hundred and fourteen ongoing pregnancies. METHODS: At 7, 9 and 11 weeks of gestation, we assessed maternal haemodynamic adaptation (mean arterial blood pressure [MAP], uterine artery [UtA] blood flow) and placental development (placental volume [PV], uteroplacental vascular volume [uPVV]) using three-dimensional power Doppler ultrasound volumes, and embryonic development (crown-rump length, embryonic volume). At 22 and 32 weeks of gestation, fetal development was assessed by estimated fetal weight. Birth outcomes (birthweight, placental weight) were extracted from medical records. Linear mixed modelling and linear regression analyses were applied. MAIN OUTCOME MEASURES: Birthweight centile and placental weight. RESULTS: In placenta-related complications (n= 55, 25.7%), reduced haemodynamic adaptation, i.e. higher UtA pulsatility index (PI) and resistance index (RI) trajectories, was associated with smaller increase in PV (ß = -0.559, 95% CI -0.841 to -0.278, P< 0.001; ß = -0.579, 95% CI -0.878 to -0.280, P< 0.001) and uPVV trajectories (UtA PI: ß = -0.301, 95% CI -0.578 to -0.023, P= 0.034). At birth, reduced haemodynamic adaptation was associated with lower placental weight (UtA PI: ß = -0.502, 95% CI -0.922 to -0.082, P= 0.022; UtA RI: ß = -0.435, 95% CI -0.839 to -0.032, P= 0.036). In pregnancies without placenta-related complications, higher MAP trajectories were positively associated with birthweight centile (ß = 0.398, 95% CI 0.049-0.748, P= 0.025). CONCLUSIONS: Reduced first-trimester maternal haemodynamic adaptation impacts both placental size and vascularisation and birthweight centile, in particular in pregnancies with placenta-related complications. TWEETABLE ABSTRACT: Reduced first-trimester maternal haemodynamic adaptation to pregnancy impairs early placental development.

First-trimester utero-placental (vascular) development and embryonic and fetal growth: The Rotterdam periconception cohort.

INTRODUCTION: Impaired placental development is a major cause of fetal growth restriction (FGR) and early detection will therefore improve antenatal care and birth outcomes. Here we aim to investigate serial first-trimester ultrasound markers of utero-placental (vascular) development in association with embryonic and fetal growth. METHODS: In a prospective cohort, we periconceptionally included 214 pregnant women. Three-dimensional power Doppler ultrasonography at 7, 9 and 11 weeks gestational age (GA) was used to measure placental volumes (PV) and basal plate surface area by Virtual Organ Computer-aided AnaLysis™, and utero-placental vascular volume (uPVV), crown-rump length (CRL) and embryonic volume (EV) by a V-scope volume rendering application. Estimated fetal weight (EFW) was measured by ultrasound at 22 and 32 weeks GA and birth weight percentile (BW) was recorded. Linear mixed models and regression analyses were applied and appropriately adjusted. All analyses were stratified for fetal sex. RESULTS: PV trajectories were positively associated with CRL (ßadj = 0.416, 95%CI:0.255; 0.576, p < 0.001), EV (ßadj = 0.220, 95%CI:0.058; 0.381, p = 0.008) and EFW (ßadj = 0.182, 95%CI:0.012; 0.352, p = 0.037). uPVV trajectories were positively associated with CRL (ßadj = 0.203, 95%CI 0.021; 0.384, p = 0.029). In girls, PV trajectories were positively associated with CRL (p < 0.001), EV (p = 0.018), EFW (p = 0.026), and uPVV trajectories were positively associated with BW (p = 0.040). In boys, positive associations were shown between PV trajectories and CRL (p = 0.002), and between uPVV trajectories and CRL (p = 0.046). DISCUSSION: First-trimester utero-placental (vascular) development is associated with embryonic and fetal growth, with fetal sex specific modifications. This underlines the opportunity to monitor first-trimester placental development and supports the associations with embryonic and fetal growth.

New imaging markers for preconceptional and first-trimester utero-placental vascularization.

INTRODUCTION: The availability of imaging makers of early placental circulation development is limited. This study aims to develop a feasible and reliable method to assess preconceptional and early first-trimester utero-placental vascular volumes using three-dimensional power Doppler (3D PD) ultrasound on two different Virtual Reality (VR) systems. METHODS: 3D PD ultrasound images of the uterine and placental vasculature were obtained in 35 women, either preconceptionally (n = 5), or during pregnancy at 7 (n = 10), 9 (n = 10) or 11 (n = 10) weeks of gestation. Preconceptional uterine vascular volume (UVV), first-trimester placental vascular volume (PVV) and embryonic vascular volume (EVV) were measured by two observers on two VR systems, i.e., a Barco I-Space and VR desktop. Intra- and inter-observer agreement and intersystem agreement were assessed by intra-class correlation coefficients (ICC) and absolute and relative differences. RESULTS: Uterine-, embryonic- and placental vascular volume measurements showed good to excellent intra- and inter-observer agreement and inter-system reproducibility with most ICC above 0.80 and relative differences of less than 20% preconceptionally and almost throughout the entire gestational age range. Inter-observer agreement of PVV at 11 weeks gestation was suboptimal (ICC 0.69, relative difference 50.1%). DISCUSSION: Preconceptional and first-trimester 3D PD ultrasound utero-placental and embryonic vascular volume measurements using VR are feasible and reliable. Longitudinal cohort studies with repeated measurements are needed to further validate this and assess their value as new imaging markers for placental vascular development and ultimately for the prediction of placenta-related pregnancy complications.