PURPOSE: To prospectively validate a protocol for noninvasive fetal sex determination in maternal plasma and demonstrate its applicability to clinical practice. METHODS: Peripheral blood from 404 pregnant women undergoing prenatal invasive testing was collected from 6 to 23 weeks of gestation. Real-time PCR was performed for the SRY gene and multicopy DYS14 marker sequence located within the TSPY gene by the TaqMan minor groove binder probe assay as a first-line test. Owing to a false-positive result, amplification of repetitive motifs of the DAZ gene region was also tested as a second-line test performed in the last 232 patients enrolled in our series. A diagnostic algorithm was designed using a combination of these three markers. Fetal gender determined by noninvasive prenatal diagnosis (NIPD) was compared with that diagnosed by quantitative fluorescent PCR after invasive testing or ultrasound. RESULTS: A single false-positive result was obtained in the first 172 pregnancies. Reporting criteria were modified in the subsequent 232 pregnancies, giving an overall sensitivity and specificity of 100% (95% CI 99.8-100%) and 99.5% (95% CI 98.1-100%), respectively. Pregnancy outcome was obtained in all cases, including 221 male-bearing and 183 female-bearing pregnancies. CONCLUSION: NIPD for fetal sex determination in maternal plasma is highly accurate and clinically applicable if robust reporting criteria are applied.
PURPOSE: To prospectively validate a protocol for noninvasive fetal sex determination in maternal plasma and demonstrate its applicability to clinical practice. METHODS: Peripheral blood from 404 pregnant women undergoing prenatal invasive testing was collected from 6 to 23 weeks of gestation. Real-time PCR was performed for the SRY gene and multicopy DYS14 marker sequence located within the TSPY gene by the TaqMan minor groove binder probe assay as a first-line test. Owing to a false-positive result, amplification of repetitive motifs of the DAZ gene region was also tested as a second-line test performed in the last 232 patients enrolled in our series. A diagnostic algorithm was designed using a combination of these three markers. Fetal gender determined by noninvasive prenatal diagnosis (NIPD) was compared with that diagnosed by quantitative fluorescent PCR after invasive testing or ultrasound. RESULTS: A single false-positive result was obtained in the first 172 pregnancies. Reporting criteria were modified in the subsequent 232 pregnancies, giving an overall sensitivity and specificity of 100% (95% CI 99.8-100%) and 99.5% (95% CI 98.1-100%), respectively. Pregnancy outcome was obtained in all cases, including 221 male-bearing and 183 female-bearing pregnancies. CONCLUSION: NIPD for fetal sex determination in maternal plasma is highly accurate and clinically applicable if robust reporting criteria are applied.
Authors: Elizabeth Schaeffer; Bruno López-Bayghen; Adina Neumann; Leonardo M Porchia; Rafael Camacho; Efraín Garrido; Rocío Gómez; Felipe Camargo; Esther López-Bayghen Journal: Biomed Res Int Date: 2017-06-22 Impact factor: 3.411
Authors: Irene Gómez-Manjón; Ana Moreno-Izquierdo; Sonia Mayo; Marta Moreno-García; Aitor Delmiro; David Escribano; F Javier Fernández-Martínez Journal: Biomed Res Int Date: 2018-06-07 Impact factor: 3.411
Authors: Sara Perlado-Marina; Ana Bustamante-Aragones; Laura Horcajada; Maria Jose Trujillo-Tiebas; Isabel Lorda-Sanchez; Marta Ruiz Ramos; Javier Plaza; Marta Rodriguez de Alba Journal: Diagnostics (Basel) Date: 2013-05-15