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Prediction of small‐for‐gestational‐age neonates: screening by uterine artery Doppler and mean arterial pressure at 19–24 weeks
Author(s) -
Lesmes C.,
Gallo D. M.,
Saiid Y.,
Poon L. C.,
Nicolaides K. H.
Publication year - 2015
Publication title -
ultrasound in obstetrics and gynecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.202
H-Index - 141
eISSN - 1469-0705
pISSN - 0960-7692
DOI - 10.1002/uog.14855
Subject(s) - medicine , uterine artery , gestational age , doppler effect , obstetrics , small for gestational age , blood pressure , gestation , mean arterial pressure , cardiology , pregnancy , heart rate , biology , physics , astronomy , genetics
Objective To investigate the potential value of uterine artery ( UtA ) pulsatility index ( PI ) and mean arterial pressure ( MAP ) at 19–24 weeks' gestation, in combination with maternal characteristics and medical history and fetal biometry in the prediction of delivery of small‐for‐gestational‐age ( SGA ) neonates in the absence of pre‐eclampsia ( PE ) and to examine the potential value of such assessment in deciding whether the third‐trimester scan should be performed at 32 and/or 36 weeks' gestation. Methods This was a screening study in 63 975 singleton pregnancies, including 3702 (5.8%) that delivered SGA neonates with birth weight < 5 th percentile ( SGA < 5 th ) in the absence of PE . Multivariable logistic regression analysis was used to determine if screening by a combination of maternal factors, fetal head circumference ( HC ), abdominal circumference ( AC ), femur length ( FL ), UtA‐PI and MAP had significant contribution in predicting SGA neonates. A model was developed to select gestational age for the third‐trimester assessment, at 32 and/or 36 weeks, based on the results of screening at 19–24 weeks. Results The detection rates ( DRs ) of combined screening by maternal factors, fetal biometry and UtA‐PI at 19–24 weeks were 90%, 68% and 44% for SGA < 5 th delivering < 32, 32–36 and ≥ 37 weeks' gestation, respectively, at a false‐positive rate ( FPR ) of 10%. The performance of screening was not improved by the addition of MAP . The DR of SGA < 5 th delivering at 32–36 weeks improved from 68% to 90% with screening at 32 rather than at 19–24 weeks. Similarly, the DR of SGA < 5 th delivering ≥ 37 weeks improved from 44% with screening at 19–24 weeks to 59% and 76% when screening at 32 and 36 weeks, respectively. In a hypothetical model, it was estimated that if the desired objective of prenatal screening is to predict about 80% of the cases of SGA < 5 th , it would be necessary to select 17% of the population at the 19–24‐week assessment to be reassessed at 32 weeks and 38% to be reassessed at 36 weeks; 62% would not require a third‐trimester scan. Conclusion Prenatal prediction of a high proportion of SGA neonates necessitates the undertaking of screening in the third trimester of pregnancy in addition to assessment in the second trimester, and the timing of such screening, at 32 and/or 36 weeks, should be contingent on the results of the assessment at 19–24 weeks. Copyright © 2015 ISUOG. Published by John Wiley & Sons Ltd.