Intrauterine exposure to chorioamnionitis and neuroanatomical alterations at term-equivalent age in preterm infants

Purpose Infants born to mothers with chorioamnionitis (CAM) are at increased risk of developing adverse neurodevelopmental disorders in later life. However, clinical magnetic resonance imaging (MRI) studies examining brain injuries and neuroanatomical alterations attributed to CAM have yielded incon...

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Bibliographic Details
Published in:Archives of gynecology and obstetrics 2024-05, Vol.309 (5), p.1909-1918
Main Authors: Nosaka, Rena, Ushida, Takafumi, Kidokoro, Hiroyuki, Kawaguchi, Masahiro, Shiraki, Anna, Iitani, Yukako, Imai, Kenji, Nakamura, Noriyuki, Sato, Yoshiaki, Hayakawa, Masahiro, Natsume, Jun, Kajiyama, Hiroaki, Kotani, Tomomi
Format: Article
Language:English
Subjects:
Brain - diagnostic imaging
Brain - pathology
Brain Injuries - pathology
Chorioamnionitis
Endocrinology
Female
Gynecology
Human Genetics
Humans
Infant
Infant, Newborn
Infant, Premature
Magnetic resonance imaging
Magnetic Resonance Imaging - methods
Maternal-Fetal Medicine
Medicine
Medicine & Public Health
Neuroanatomy
Newborn babies
Obstetrics/Perinatology/Midwifery
Pregnancy
Premature babies
Traumatic brain injury
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Summary:Purpose Infants born to mothers with chorioamnionitis (CAM) are at increased risk of developing adverse neurodevelopmental disorders in later life. However, clinical magnetic resonance imaging (MRI) studies examining brain injuries and neuroanatomical alterations attributed to CAM have yielded inconsistent results. We aimed to determine whether exposure to histological CAM in utero leads to brain injuries and alterations in the neuroanatomy of preterm infants using 3.0- Tesla MRI at term-equivalent age. Methods A total of 58 preterm infants born before 34 weeks of gestation at Nagoya University Hospital between 2010 and 2018 were eligible for this study (CAM group, n = 21; non-CAM group, n = 37). Brain injuries and abnormalities were assessed using the Kidokoro Global Brain Abnormality Scoring system. Gray matter, white matter, and subcortical gray matter (thalamus, caudate nucleus, putamen, pallidum, hippocampus, amygdala, and nucleus accumbens) volumes were evaluated using segmentation tools (SPM12 and Infant FreeSurfer). Results The Kidokoro scores for each category and severity in the CAM group were comparable to those observed in the non-CAM group. White matter volume was significantly smaller in the CAM group after adjusting for covariates (postmenstrual age at MRI, infant sex, and gestational age) ( p  = 0.007), whereas gray matter volume was not significantly different. Multiple linear regression analyses revealed significantly smaller volumes in the bilateral pallidums (right, p  = 0.045; left, p  = 0.038) and nucleus accumbens (right, p  = 0.030; left, p  = 0.004) after adjusting for covariates. Conclusions Preterm infants born to mothers with histological CAM showed smaller volumes in white matter, pallidum, and nucleus accumbens at term-equivalent age.
ISSN:1432-0711
0932-0067
1432-0711
DOI:10.1007/s00404-023-07064-y