Greater Neighborhood Disadvantage Is Associated with Alterations in Fetal Functional Brain Network Structure

To determine the association between neighborhood disadvantage (ND) and functional brain development of in utero fetuses. We conducted an observational study using Social Vulnerability Index (SVI) scores to assess the impact of ND on a prospectively recruited sample of healthy pregnant women from Wa...

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Veröffentlicht in:The Journal of pediatrics 2024-11, Vol.274, p.114201, Article 114201
Hauptverfasser: Cook, Kevin Michael, De Asis-Cruz, Josepheen, Sitrin, Chloe, Barnett, Scott D., Krishnamurthy, Dhineshvikram, Limperopoulos, Catherine
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Sprache:eng
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Zusammenfassung:To determine the association between neighborhood disadvantage (ND) and functional brain development of in utero fetuses. We conducted an observational study using Social Vulnerability Index (SVI) scores to assess the impact of ND on a prospectively recruited sample of healthy pregnant women from Washington, DC. Using 79 functional magnetic resonance imaging scans from 68 healthy pregnancies at a mean gestational age of 33.12 weeks, we characterized the overall functional brain network structure using a graph metric approach. We used linear mixed effects models to assess the relationship between SVI and gestational age on 5 graph metrics, adjusting for multiple scans. Exposure to greater ND was associated with less well integrated functional brain networks, as observed by longer characteristic path lengths and diminished global efficiency (GE), as well as diminished small world propensity (SWP). Across gestational ages, however, the association between SVI and network integration diminished to a negligible relationship in the third trimester. Conversely, SWP was significant across pregnancy, but the relationship changed such that there was a negative association with SWP earlier in the second trimester that inverted around the transition to the third trimester to a positive association. These data directly connect ND and altered functional brain maturation in fetuses. Our results suggest that, even before birth, proximity to environmental stressors in the wider neighborhood environment are associated with altered brain development.
ISSN:0022-3476
1097-6833
1097-6833
DOI:10.1016/j.jpeds.2024.114201