TY - JOUR
T1 - Cerebral Oxygenation Measurements by Magnetic Resonance Imaging in Fetuses With and Without Heart Defects
AU - Lauridsen, Mette H
AU - Uldbjerg, Niels
AU - Henriksen, Tine B
AU - Petersen, Olav B
AU - Stausbøl-Grøn, Brian
AU - Matthiesen, Niels B
AU - Peters, David A
AU - Ringgaard, Steffen
AU - Hjortdal, Vibeke E
N1 - © 2017 American Heart Association, Inc.
PY - 2017/11
Y1 - 2017/11
N2 - BACKGROUND: Children with major congenital heart defects are risking impaired cerebral growth, delayed cerebral maturation, and neurodevelopmental disorders. We aimed to compare the cerebral tissue oxygenation of fetuses with major heart defects to that of fetuses without heart defects as estimated by the magnetic resonance imaging modality T2*. T2* is low in areas with high concentrations of deoxyhemoglobin.METHODS AND RESULTS: At gestational age mean 32 weeks (early) and mean 37 weeks (late), we compared the fetal cerebral T2* in 28 fetuses without heart defects to that of 15 fetuses with major heart defects: transposition of the great arteries (n=7), coarctation of the aorta/hypoplastic aortic arch (n=5), tetralogy of Fallot (n=1), hypoplastic right heart (n=1), and common arterial trunk (n=1). The women were scanned with a 1.5 T Philips scanner using a breath-hold multiecho gradient echo sequence. Among fetuses without heart defects, the mean T2* value was 157 ms (95% confidence interval [CI], 152-163) early and 125 ms (95% CI, 120-130) late. These figures were significantly lower (mean 14 ms; 95% CI, 6-22; P<0.001) among fetuses with heart defects 143 ms (95% CI, 136-150) early and 111 ms (95% CI, 104-118) late.CONCLUSIONS: Our findings indicate that fetal cerebral T2* is measurable and that fetal cerebral tissue oxygenation measured by T2* is lower in fetuses with heart defects compared with fetuses without heart defects. This corroborates the hypothesis that tissue hypoxia may be a potential pathogenic factor that possibly affects brain development in fetuses with heart defects.
AB - BACKGROUND: Children with major congenital heart defects are risking impaired cerebral growth, delayed cerebral maturation, and neurodevelopmental disorders. We aimed to compare the cerebral tissue oxygenation of fetuses with major heart defects to that of fetuses without heart defects as estimated by the magnetic resonance imaging modality T2*. T2* is low in areas with high concentrations of deoxyhemoglobin.METHODS AND RESULTS: At gestational age mean 32 weeks (early) and mean 37 weeks (late), we compared the fetal cerebral T2* in 28 fetuses without heart defects to that of 15 fetuses with major heart defects: transposition of the great arteries (n=7), coarctation of the aorta/hypoplastic aortic arch (n=5), tetralogy of Fallot (n=1), hypoplastic right heart (n=1), and common arterial trunk (n=1). The women were scanned with a 1.5 T Philips scanner using a breath-hold multiecho gradient echo sequence. Among fetuses without heart defects, the mean T2* value was 157 ms (95% confidence interval [CI], 152-163) early and 125 ms (95% CI, 120-130) late. These figures were significantly lower (mean 14 ms; 95% CI, 6-22; P<0.001) among fetuses with heart defects 143 ms (95% CI, 136-150) early and 111 ms (95% CI, 104-118) late.CONCLUSIONS: Our findings indicate that fetal cerebral T2* is measurable and that fetal cerebral tissue oxygenation measured by T2* is lower in fetuses with heart defects compared with fetuses without heart defects. This corroborates the hypothesis that tissue hypoxia may be a potential pathogenic factor that possibly affects brain development in fetuses with heart defects.
KW - Journal Article
UR - http://www.scopus.com/inward/record.url?scp=85037700283&partnerID=8YFLogxK
U2 - 10.1161/CIRCIMAGING.117.006459
DO - 10.1161/CIRCIMAGING.117.006459
M3 - Journal article
C2 - 29141840
SN - 1942-0080
VL - 10
SP - e006459
JO - Circulation: Cardiovascular Imaging
JF - Circulation: Cardiovascular Imaging
IS - 11
ER -