TY - JOUR
T1 - Prenatal prediction of pulmonary hypoplasia
T2 - Clinical, biometric, and Doppler velocity correlates
AU - Laudy, Jacqueline A.M.
AU - Tibboel, Dick
AU - Robben, Simon G.F.
AU - De Krijger, Ronald R.
AU - De Ridder, Maria A.J.
AU - Wladimiroff, Juriy W.
PY - 2002
Y1 - 2002
N2 - Objectives. To determine the value of pulmonary artery Doppler velocimetry relative to fetal biometric indices and clinical correlates in the prenatal prediction of lethal lung hypoplasia (LH) in prolonged (>1 week) oligohydramnios. Methods. Forty-two singleton pregnancies with oligohydramnios associated with premature rupture of membranes ([PROM]; n = 31) or bilateral renal pathology (n = 11) were examined using color-coded Doppler ultrasound in a cross-sectional study design. Mean gestational age was 28.0 ± 4.3 weeks (range: 20-36 weeks). Thoracic, cardiac, and abdominal circumference and the largest vertical amniotic fluid pocket were measured. Pulsed Doppler measurements of the arterial pulmonary branches were made at the level of the cardiac 4-chamber view. Diagnosis of LH was based on clinical, radiologic, and pathologic criteria. Clinicians were blinded to the prenatal measurements. Results. The prevalence of lethal LH was 43%. In the PROM subset, combination of onset of PROM at ≤20 weeks, duration of oligohydramnios at ≤8 weeks, and degree of oligohydramnios at ≤1 cm presented the highest clinical prediction rate for lethal LH. For both the total group and the PROM subset, the highest prediction rate for lethal LH was presented by thoracic circumference/abdominal circumference ratio, peak systolic velocity in the proximal branch, and time-averaged and end-diastolic velocity in the middle branch of the pulmonary artery. In the PROM subset, the combination of all 3 clinical, biometric, and Doppler parameters revealed the most favorable combination to predict lethal LH (positive predictive value: 100%; accuracy: 93%; and sensitivity: 71%). Conclusion. Doppler velocimetry may detect changes in pulmonary artery waveforms in the presence of LH but fails to be the ultimate test for the prenatal prediction of lethal LH. The best prediction can be achieved by combining clinical, biometric, and Doppler parameters.
AB - Objectives. To determine the value of pulmonary artery Doppler velocimetry relative to fetal biometric indices and clinical correlates in the prenatal prediction of lethal lung hypoplasia (LH) in prolonged (>1 week) oligohydramnios. Methods. Forty-two singleton pregnancies with oligohydramnios associated with premature rupture of membranes ([PROM]; n = 31) or bilateral renal pathology (n = 11) were examined using color-coded Doppler ultrasound in a cross-sectional study design. Mean gestational age was 28.0 ± 4.3 weeks (range: 20-36 weeks). Thoracic, cardiac, and abdominal circumference and the largest vertical amniotic fluid pocket were measured. Pulsed Doppler measurements of the arterial pulmonary branches were made at the level of the cardiac 4-chamber view. Diagnosis of LH was based on clinical, radiologic, and pathologic criteria. Clinicians were blinded to the prenatal measurements. Results. The prevalence of lethal LH was 43%. In the PROM subset, combination of onset of PROM at ≤20 weeks, duration of oligohydramnios at ≤8 weeks, and degree of oligohydramnios at ≤1 cm presented the highest clinical prediction rate for lethal LH. For both the total group and the PROM subset, the highest prediction rate for lethal LH was presented by thoracic circumference/abdominal circumference ratio, peak systolic velocity in the proximal branch, and time-averaged and end-diastolic velocity in the middle branch of the pulmonary artery. In the PROM subset, the combination of all 3 clinical, biometric, and Doppler parameters revealed the most favorable combination to predict lethal LH (positive predictive value: 100%; accuracy: 93%; and sensitivity: 71%). Conclusion. Doppler velocimetry may detect changes in pulmonary artery waveforms in the presence of LH but fails to be the ultimate test for the prenatal prediction of lethal LH. The best prediction can be achieved by combining clinical, biometric, and Doppler parameters.
KW - Doppler velocimetry
KW - Human fetus
KW - Oligohydramnios
KW - Premature rupture of membranes
KW - Pulmonary circulation
KW - Pulmonary hypoplasia
UR - http://www.scopus.com/inward/record.url?scp=0036164305&partnerID=8YFLogxK
U2 - 10.1542/peds.109.2.250
DO - 10.1542/peds.109.2.250
M3 - Article
C2 - 11826203
AN - SCOPUS:0036164305
SN - 0031-4005
VL - 109
SP - 250
EP - 258
JO - Pediatrics
JF - Pediatrics
IS - 2 I
ER -