Accuracy of ultrasonic detection of the uterus in normal newborn infants: implications for infants with ambiguous genitalia

Abstract

Every year approximately one in 5000 babies is born with ambiguous genitalia, a condition that requires immediate sex assignment if possible. We investigated whether transabdominal ultrasonography with the use of a linear array high-resolution 7.5-MHz transducer would enhance the accuracy of detecting the uterus in the newborn. One hundred mothers who delivered normal, term infants (> 36 weeks and > 2500 g) gave their informed consent for the investigation. Each infant was placed in an unmarked bassinet, external genitalia were covered, and ultrasound examinations were performed by the same examiner (R.S.) who was blinded to the sex of the infant. The neonatal uterus was identified in 47 of 50 female infants (94% sensitivity) and the absence of a uterus was correctly predicted in 49 of 50 male infants (specificity 98%). The average length of the neonatal uteri 1 day after birth was 3.2 +/- 0.5 cm and the total volume was 3.5 +/- 0.9 cm3. An endometrial strip could be identified in 98% of neonatal uteri. We conclude that the use of the high-resolution 7.5-MHz transducer available in commercial ultrasound equipment is an accurate method for the detection of the neonatal uterus. Infants born with ambiguous genitalia who have a uterus will almost always be assigned the female sex. Infants with ambiguous genitalia but without a uterus will have male pseudohermaphroditism.