TY - JOUR
T1 - Placental Pathology Contributes to Impaired Volumetric Brain Development in Neonates With Congenital Heart Disease
AU - Nijman, Maaike
AU - van der Meeren, Lotte E
AU - Nikkels, Peter G J
AU - Stegeman, Raymond
AU - Breur, Johannes M P J
AU - Jansen, Nicolaas J G
AU - Ter Heide, Henriette
AU - Steenhuis, Trinette J
AU - de Heus, Roel
AU - Bekker, Mireille N
AU - Claessens, Nathalie H P
AU - Benders, Manon J N L
N1 - Publisher Copyright:
© 2024 The Authors.
PY - 2024/3/5
Y1 - 2024/3/5
N2 - BACKGROUND: Neonates with congenital heart disease are at risk for impaired brain development in utero, predisposing children to postnatal brain injury and adverse long-term neurodevelopmental outcomes. Given the vital role of the placenta in fetal growth, we assessed the incidence of placental pathology in fetal congenital heart disease and explored its association with total and regional brain volumes, gyrification, and brain injury after birth. METHODS AND RESULTS: Placentas from 96 term singleton pregnancies with severe fetal congenital heart disease were pro-spectively analyzed for macroscopic and microscopic pathology. We applied a placental pathology severity score to relate placental abnormalities to neurological outcome. Postnatal, presurgical magnetic resonance imaging was used to analyze brain volumes, gyrification, and brain injuries. Placental analyses revealed the following abnormalities: maternal vascular malp-erfusion lesions in 46%, nucleated red blood cells in 37%, chronic inflammatory lesions in 35%, delayed maturation in 30%, and placental weight below the 10th percentile in 28%. Severity of placental pathology was negatively correlated with cortical gray matter, deep gray matter, brainstem, cerebellar, and total brain volumes (r=−0.25 to −0.31, all P<0.05). When correcting for postmenstrual age at magnetic resonance imaging in linear regression, this association remained significant for cortical gray matter, cerebellar, and total brain volume (adjusted R2=0.25–0.47, all P<0.05). CONCLUSIONS: Placental pathology occurs frequently in neonates with severe congenital heart disease and may contribute to impaired brain development, indicated by the association between placental pathology severity and reductions in postnatal cortical, cerebellar, and total brain volumes.
AB - BACKGROUND: Neonates with congenital heart disease are at risk for impaired brain development in utero, predisposing children to postnatal brain injury and adverse long-term neurodevelopmental outcomes. Given the vital role of the placenta in fetal growth, we assessed the incidence of placental pathology in fetal congenital heart disease and explored its association with total and regional brain volumes, gyrification, and brain injury after birth. METHODS AND RESULTS: Placentas from 96 term singleton pregnancies with severe fetal congenital heart disease were pro-spectively analyzed for macroscopic and microscopic pathology. We applied a placental pathology severity score to relate placental abnormalities to neurological outcome. Postnatal, presurgical magnetic resonance imaging was used to analyze brain volumes, gyrification, and brain injuries. Placental analyses revealed the following abnormalities: maternal vascular malp-erfusion lesions in 46%, nucleated red blood cells in 37%, chronic inflammatory lesions in 35%, delayed maturation in 30%, and placental weight below the 10th percentile in 28%. Severity of placental pathology was negatively correlated with cortical gray matter, deep gray matter, brainstem, cerebellar, and total brain volumes (r=−0.25 to −0.31, all P<0.05). When correcting for postmenstrual age at magnetic resonance imaging in linear regression, this association remained significant for cortical gray matter, cerebellar, and total brain volume (adjusted R2=0.25–0.47, all P<0.05). CONCLUSIONS: Placental pathology occurs frequently in neonates with severe congenital heart disease and may contribute to impaired brain development, indicated by the association between placental pathology severity and reductions in postnatal cortical, cerebellar, and total brain volumes.
KW - Brain Injuries
KW - Brain/pathology
KW - Child
KW - Female
KW - Fetal Development
KW - Fetal Diseases
KW - Heart Defects, Congenital/complications
KW - Humans
KW - Infant, Newborn
KW - Placenta/diagnostic imaging
KW - Pregnancy
KW - brain development
KW - magnetic resonance imaging
KW - neonate
KW - congenital heart disease
KW - placenta
KW - neuroplacentology
KW - fetus
UR - http://www.scopus.com/inward/record.url?scp=85187199742&partnerID=8YFLogxK
U2 - 10.1161/JAHA.123.033189
DO - 10.1161/JAHA.123.033189
M3 - Article
C2 - 38420785
SN - 2047-9980
VL - 13
JO - Journal of the American Heart Association
JF - Journal of the American Heart Association
IS - 5
M1 - e033189
ER -