Objective: This study reviews our clinical experience of non-invasive techniques for early sex determination. It assesses the effectiveness of these techniques at reducing invasive prenatal testing for X-linked genetic disease or for ambiguous development of the external genitalia.
Methods: A prospective cohort study of 30 pregnancies was referred to a tertiary unit for prenatal diagnosis. Fetal gender was determined using two non-invasive techniques: analysis of free fetal DNA (ffDNA) in maternal plasma and ultrasound visualisation. The results were compared to fetal gender determined by invasive testing or at birth.
Results: Fetal gender was accurately determined by analysis of ffDNA at a mean of 10 + 1 (7 + 6 to 14 + 1) weeks' gestation in all cases. Ultrasound assessment was accurate in 20 of the 23 cases where this was attempted at 12 + 0 (10 + 4 to 14 + 1) weeks' gestation, but could not be determined in the remaining 3 cases. Thirteen of 28 (46%) women chose not to have invasive testing on the basis of these findings.
Conclusions: Both the techniques appear to offer an accurate means of assessing fetal gender, giving parents the option of avoiding invasive testing in the 50% of cases where the fetus would not be affected. The molecular technique is performed at an earlier gestation, but female fetal status is predicted by a negative test result. Ultrasound cannot be applied until 11 weeks' gestation but diagnostic signs are sought in both sexes. Combining these approaches offers a highly sensitive method of non-invasive determination of gender in high-risk pregnancies. Health professionals, clinical geneticists and genetics associates, in particular, who refer women at high risk should be aware of these non-invasive options for prenatal sex determination.
Copyright 2005 John Wiley & Sons, Ltd