RESUMO
BACKGROUND: There is a robust association between altered angiogenic factor concentrations, which includes placental growth factor and clinically recognized preeclampsia. Alterations in concentrations of angiogenic factors precede the clinical onset of preeclampsia by several weeks. The temporal relationship between the measured angiogenic factors and the time to delivery in women with suspected preeclampsia at <35 weeks gestation, however, remains to be clarified. OBJECTIVE: The purposes of this study were to examine the relationship between placental growth factor and time to delivery in women at <35 weeks gestation with signs or symptoms of preeclampsia and to compare the performance of placental growth factor to other clinical markers for prediction of time to delivery in preeclampsia. STUDY DESIGN: Women with signs or symptoms of preeclampsia between 20.0 and 35.0 weeks gestation were enrolled in a prospective, observational study at 24 centers. Blood was collected at presentation for placental growth factor, and subjects were evaluated and treated according to local protocols. Clinical outcomes were obtained, and all final diagnoses were adjudicated by an independent expert panel according to 2013 American College of Obstetricians and Gynecologists' Hypertension in Pregnancy criteria. Placental growth factor was measured retrospectively on the Alere, Inc, triage platform. A normal placental growth factor was defined as >100 pg/mL; the assay's limit of detection is 12 pg/mL. Two-by-2 tables were constructed for comparison of test outcomes that included negative predictive value; time-to-delivery was analyzed by survival curves and Cox regression. RESULTS: Seven hundred fifty-three subjects were enrolled; 538 (71%) had a final diagnosis of preeclampsia; 542 (72%) delivered at <37 weeks gestation, and 358 (47%) delivered at <34 weeks gestation. Among the 279 women (37%) with a normal placental growth factor at presentation, the negative predictive value for preeclampsia delivered within 14 days or within 7 days was 90% and 93%, respectively. Compared with women with normal placental growth factor, women with placental growth factor ≤100 pg/mL have a hazard ratio of 7.17 (confidence interval, 5.08-10.13) in Cox regression for time to delivery after adjustment for both gestational age at enrollment and the final diagnosis of preeclampsia. The placental growth factor levels of normal (>100 pg/mL), low (12-100 pg/mL), and very low (<12 pg/mL) have well-separated distributions of time to delivery, with median values of 45, 10, and 2 days, respectively. Subjects with placental growth factor ≤100 pg/mL have a perinatal death rate of 5.7% and a small-for-gestational-age rate of 51.7%; subjects with placental growth factor >100 pg/mL have a perinatal death rate of 0% (no observations in this cohort) and an a small-for-gestational-age rate of 16.8%. CONCLUSION: In women with suspected preeclampsia at <35.0 weeks gestation, a low placental growth factor was correlated strongly with preterm delivery independent of a diagnosis of preeclampsia or gestational age at presentation, whereas a normal placental growth factor was associated with pregnancy prolongation, even in patients who ultimately had a final diagnosis of preeclampsia. This suggests that placental growth factor levels are superior to clinical markers in the prediction of adverse pregnancy in women with suspected preeclampsia.