Evaluating the accuracy and precision of sonographic fetal weight estimation models in extremely early-onset fetal growth restriction.

Introduction: Birthweight is a critical predictor of survival in extremely early-onset fetal growth restriction (diagnosed pre-28 weeks' gestation, with abnormal umbilical/uterine artery Doppler waveforms), therefore accurate fetal weight estimation is a crucial component of antenatal management. Currently available sonographic fetal weight estimation models were predominantly developed in populations of mixed gestational age and varying fetal weights, but not specifically tested within the context of extremely early-onset fetal growth restriction. This study aimed to determine the accuracy and precision of fetal weight estimation in this population and investigate whether model performance is affected by other factors.

A mixed-methods evaluation of continuous electronic fetal monitoring for an extended period.

Introduction: Continuous fetal monitoring is used to objectively record the fetal heart rate and fetal activity over an extended period of time; however, its feasibility and acceptability to women is currently unknown. The study addressed the hypothesis that continuous fetal monitoring is feasible and acceptable to pregnant women.

Material And Methods: Pregnant participants (n = 22) were monitored using a continuous fetal electrocardiography device, the Monica AN24.

Predictors of poor perinatal outcome following maternal perception of reduced fetal movements--a prospective cohort study.

Background: Maternal perception of reduced fetal movement (RFM) is associated with increased risk of stillbirth and fetal growth restriction (FGR). RFM is thought to represent fetal compensation to conserve energy due to insufficient oxygen and nutrient transfer resulting from placental insufficiency.

Objective: To identify predictors of poor perinatal outcome after maternal perception of reduced fetal movements (RFM).

Maternal perception of reduced fetal movements is associated with altered placental structure and function.

Background: Maternal perception of reduced fetal movement (RFM) is associated with increased risk of stillbirth and fetal growth restriction (FGR). DFM is thought to represent fetal compensation to conserve energy due to insufficient oxygen and nutrient transfer resulting from placental insufficiency. To date there have been no studies of placental structure in cases of DFM.

Identifying placental dysfunction in women with reduced fetal movements can be used to predict patients at increased risk of pregnancy complications.

Maternal perception of fetal movements has historically been used to indicate fetal wellbeing, and has been used with varying success in recent years to identify those pregnancies at increased risk of stillbirth, and other placental pathologies. We present a hypothesis that links reduced fetal movements (RFM) to fetal growth restriction (FGR) and stillbirth through placental dysfunction, and suggests the possibility that this can allow development of a reliable method to identify those women experiencing RFM who are at increased risk of adverse outcome. Reduced fetal movement is thought to represent fetal compensation in a chronic hypoxic environment due to inadequacies in the placental supply of oxygen and nutrients.