Impact of Congenital Heart Disease on Cerebrovascular Blood Flow Dynamics in the Fetus

Overview

Journal Ultrasound Obstet Gynecol

Specialty Gynecology & Obstetrics

Date 2004 Dec 14

PMID 15593334

Citations 68

Authors

J R Kaltman

H Di

Z Tian

J Rychik

Affiliations

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Abstract

Objectives: Neurological abnormalities are present in some children after repair of congenital heart disease (CHD). Recently, structural brain abnormalities have been identified in infants prior to cardiac surgery. By altering in utero blood flow patterns, the type of CHD may impact upon cerebrovascular flow dynamics prior to birth. We sought to determine whether left- and right-sided obstructive congenital heart lesions modify cerebrovascular flow dynamics in the fetus.

Methods: Pulsed Doppler was used to measure blood flow velocities in the umbilical (UA) and middle cerebral (MCA) arteries in 172 fetuses from 20 to 39 weeks' gestational age referred for fetal echocardiography. Pulsatility index (PI), an indicator of downstream vascular resistance, was determined by (peak systolic velocity--end-diastolic velocity)/mean velocity.

Results: Fetuses with hypoplastic left heart syndrome (HLHS; n = 28) had decreased MCA-PI (P = 0.009) compared to normal fetuses (n = 114). Fetuses with right-sided obstructive lesions (RSOL; n = 17) had increased MCA-PI (P = 0.001) when compared to fetuses with HLHS. The UA-PI was elevated in fetuses with RSOLs (P = 0.045).

Conclusions: Cerebrovascular resistance is lower than normal in fetuses with HLHS, a condition in which cerebral perfusion occurs retrograde via the ductus arteriosus. Fetuses with RSOL had significantly higher cerebrovascular resistance compared to fetuses with HLHS. The type of CHD impacts upon fetal cerebrovascular blood flow distribution and this may have implications for later development of neurological sequelae.

Citing Articles

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Postnatal Cerebral Hemodynamics and Placental Vascular Malperfusion Lesions in Neonates With Congenital Heart Disease.

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Fetal circulatory physiology and brain development in complex congenital heart disease: A multi-modal imaging study.

Juergensen S, Liu J, Xu D, Zhao Y, Moon-Grady A, Glenn O Prenat Diagn. 2023; 44(6-7):856-864.

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Adaptive Growth of the Ductus Arteriosus and Aortic Isthmus in Various Ductus-Dependent Complex Congenital Heart Diseases.

Hashim L, Vari D, Bhat A, Tsuda T Pediatr Cardiol. 2023; 45(7):1588-1595.

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