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NCT00340171
Fetal growth abnormalities, such as macrosomia and intrauterine growth retardation, are an important cause for increased perinatal mortality in the United States. Toward this end, accurate fetal weight determinations are very important for guiding prenatal care. Three-dimensional ultrasound is a recent technology that provides a new way to evaluate the fetus. This technique allows one to arbitrarily scan through a digital ultrasound volume dataset, visualize organs from different perspectives, and render anatomical features through computer processing. It also allows the retrospective measurement of distances and volumes even in the physical absence of the patient. A maximum of 400 pregnancies will be serially studied by three-dimensional ultrasound to characterize the growth of volume parameters such as the fetal thigh. This information will be applied to the Rossavik model of individualized growth assessment. The technique allows growth evaluation by comparing various ultrasound measurements or birth characteristics to the individual growth standards specified by the prediction model. Newborn infant body composition will also be studied within 48 hours of delivery. A separate cross-sectional study of up to 2,577 fetuses will allow development of birth weight prediction models based upon fetal volume measurements and further analysis of fetal growth abnormalities. Individual growth curve standards utilizing these volume parameters should allow one to evaluate deviations from expected growth or birth weight by using each fetus as its own control.
NCT00342550
Preterm labor is a leading cause of perinatal morbidity and mortality. Several investigators have reported that ultrasound evaluation of the cervix can predict the risk of preterm delivery. Three-dimensional ultrasound may provide additional information about how to best counsel parents about the chances of premature birth. This technology has the capability for accurate volume measurements of irregular structures that is superior to conventional ultrasound. Therefore, it is possible that three-dimensional ultrasound methods may better characterize cervical changes and the risk for preterm delivery. Our protocol will attempt to identify prognostic indicators of adverse pregnancy outcome by three-dimensional ultrasound. A maximum of 680 pregnant women with the diagnosis of preterm labor will be prospectively studied to characterize cervical morphology and volume as predictors of preterm delivery risk. These results will be correlated with placental pathology and pregnancy outcome. We will also compare the performance of conventional two-dimensional endovaginal ultrasound with three-dimensional ultrasound findings. This information is expected to improve our understanding about the nature and timing of cervical volume changes in relation to pregnancy outcome.