First-trimester or second-trimester screening, or both, for Down's syndrome

BACKGROUND: It is uncertain how best to screen pregnant women for the presence of fetal Down's syndrome: to perform first-trimester screening, to perform second-trimester screening, or to use strategies incorporating measurements in both trimesters.METHODS: Women with singleton pregnancies underwent first-trimester combined screening (measurement of nuchal translucency, pregnancy-associated plasma protein A [PAPP-A], and the free beta subunit of human chorionic gonadotropin at 10 weeks 3 days through 13 weeks 6 days of gestation) and second-trimester quadruple screening (measurement of alpha-fetoprotein, total human chorionic gonadotropin, unconjugated estriol, and inhibin A at 15 through 18 weeks of gestation). We compared the results of stepwise sequential screening (risk results provided after each test), fully integrated screening (single risk result provided), and serum integrated screening (identical to fully integrated screening, but without nuchal translucency).RESULTS: First-trimester screening was performed in 38,167 patients; 117 had a fetus with Down's syndrome. At a 5 percent false positive rate, the rates of detection of Down's syndrome were as follows: with first-trimester combined screening, 87 percent, 85 percent, and 82 percent for measurements performed at 11, 12, and 13 weeks, respectively; with second-trimester quadruple screening, 81 percent; with stepwise sequential screening, 95 percent; with serum integrated screening, 88 percent; and with fully integrated screening with first-trimester measurements performed at 11 weeks, 96 percent. Paired comparisons found significant differences between the tests, except for the comparison between serum integrated screening and combined screening.CONCLUSIONS: First-trimester combined screening at 11 weeks of gestation is better than second-trimester quadruple screening but at 13 weeks has results similar to second-trimester quadruple screening. Both stepwise sequential screening and fully integrated screening have high rates of detection of Down's syndrome, with low false positive rates

First-Trimester or Second-Trimester Screening, or Both, for Down's Syndrome

BACKGROUND It is uncertain how best to screen pregnant women for the presence of fetal Down's syndrome: to perform first-trimester screening, to perform second-trimester screening, or to use strategies incorporating measurements in both trimesters. METHODS Women with singleton pregnancies underwent first-trimester combined screening (measurement of nuchal translucency, pregnancy-associated plasma protein A [PAPP-A], and the free beta subunit of human chorionic gonadotropin at 10 weeks 3 days through 13 weeks 6 days of gestation) and second-trimester quadruple screening (measurement ofalpha-fetoprotein, total human chorionic gonadotropin, unconjugated estriol, and inhibin A at 15 through 18 weeks of gestation). We compared the results of stepwise sequential screening (risk results provided after each test), fully integrated screening (single risk result provided), and serum integrated screening (identical to fully integrated screening, but without nuchal translucency). RESULTS First-trimester screening was performed in 38,167 patients; 117 had a fetus with Down's syndrome. At a 5 percent false positive rate, the rates of detection of Down's syndrome were as follows: with first-trimester combined screening, 87 percent, 85 percent, and 82 percent for measurements performed at 11, 12, and 13 weeks, respectively; with second-trimester quadruple screening, 81 percent; with stepwise sequential screening, 95 percent; with serum integrated screening, 88 percent; and with fully integrated screening with first-trimester measurements performed at 11 weeks, 96 percent. Paired comparisons found significant differences between the tests, except for the comparison between serum integrated screening and combined screening. CONCLUSIONS First-trimester combined screening at 11 weeks of gestation is better than second-trimester quadruple screening but at 13 weeks has results similar to second-trimester quadruple screening. Both stepwise sequential screening and fully integrated screening have high rates of detection ofDown's syndrome, with low false positive rates

Total activin A in maternal blood as a marker of preterm delivery in low-risk asymptomatic patients

OBJECTIVES: To retrospectively evaluate whether increased serum levels of total activin A (t-activin A) are found in women who subsequently experience preterm delivery (PTD). METHODS: Data on maternal serum t-activin A concentrations were available from a total of 84 singleton pregnant women and included 14 PTD pregnancies, each matched for gestational age and length of freezer storage, with 5 control pregnancies having term delivery (TD). Analyte values were expressed as multiple(s) of the control median. RESULTS: The median t-activin A for controls and cases was 1.00 +/- 0.45 and 1.27 +/- 0.53 MoM, respectively. Univariate analysis of the MoM values was performed using the Kaplan-Meier algorithm. Differences in the rate of delivery using a t-activin A MoM cut-off of > or = 1 SD (equivalent to 1.26 MoM) were analysed using the log rank test. The cumulative rate of PTD (< 37 weeks) was significantly higher for women with t-activin A concentrations > or = 1.26 MoM than those with t-activin A concentrations below this cut-off (40% vs.. 10%, p-value = 0.0218 log rank test). CONCLUSIONS: T-activin A concentration is higher in women who will develop PTD in a low-risk population. T-activin A values are inversely proportional to the time elapsed from blood test to delivery. Prospective studies would determine the precise discriminability of this marker for PTD and the best week for performing the blood test, allowing for a proper calculation of the detection rate and a positive predictive value