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- Title
Association of Gestational Age at Birth With Brain Morphometry.
- Authors
El Marroun, Hanan; Zou, Runyu; Leeuwenburg, Michelle F.; Steegers, Eric A. P.; Reiss, Irwin K. M.; Muetzel, Ryan L.; Kushner, Steven A.; Tiemeier, Henning
- Abstract
Key Points: Question: Is there an association of gestational age at birth with structural brain morphometry in childhood? Findings: In this population-based cohort study of 3079 singleton children, gestational duration was associated with global and regional brain volumes 10 years after birth and these linear associations persisted when the sample was restricted to term-born children. Consistent with the rapid expansion of brain volume during the third trimester, gestational age at birth was associated with more gyrification and cortical surface area. Meaning: Gestational duration may be important for long-term neurodevelopment and should be considered a continuum of development throughout pregnancy. Importance: Preterm and postterm births are associated with adverse neuropsychiatric outcomes. However, it remains unclear whether variation of gestational age within the 37- to 42-week range of term deliveries is associated with neurodevelopment. Objective: To investigate the association of gestational age at birth (GAB) with structural brain morphometry in children aged 10 years. Design, Setting, and Participants: This population-based cohort study included pregnant women living in Rotterdam, the Netherlands, with an expected delivery date between April 1, 2002, and January 31, 2006. The study evaluated 3079 singleton children with GAB ranging from 26.3 to 43.3 weeks and structural neuroimaging at 10 years of age from the Generation R Study, a longitudinal, population-based prospective birth cohort from early pregnancy onward in Rotterdam. Data analysis was performed from March 1, 2019, to February 28, 2020, and at the time of the revision based on reviewer suggestions. Exposures: The GAB was calculated based on ultrasonographic assessment of crown-rump length (<12 weeks 5 days) or biparietal diameter (≥12 weeks 5 days) in dedicated research centers. Main Outcomes and Measures: Brain structure, including global and regional brain volumes and surface-based cortical measures (thickness, surface area, and gyrification), was quantified by magnetic resonance imaging. Results: In the 3079 children (1546 [50.2%] female) evaluated at 10 years of age, GAB was linearly associated with global and regional brain volumes. Longer gestational duration was associated with larger brain volumes; for example, every 1-week-longer gestational duration corresponded to an additional 4.5 cm3/wk (95% CI, 2.7-6.3 cm3/wk) larger total brain volume. These associations persisted when the sample was restricted to children born at term (GAB of 37-42 weeks: 4.8 cm3/wk; 95% CI, 1.8-7.7 cm3/wk). No evidence of nonlinear associations between GA and brain morphometry was observed. Conclusions and Relevance: In this cohort study, gestational duration was linearly associated with brain morphometry during childhood, including within the window of term delivery. These findings may have marked clinical importance, particularly given the prevalence of elective cesarean deliveries. This cohort study investigates the association of gestational age at birth with structural brain morphometry in children aged 10 years.
- Subjects
NETHERLANDS; BRAIN anatomy; CHILD development; CONFIDENCE intervals; GESTATIONAL age; LONGITUDINAL method; MAGNETIC resonance imaging; NEURORADIOLOGY; DURATION of pregnancy; PREGNANT women; DESCRIPTIVE statistics; CHILDREN
- Publication
JAMA Pediatrics, 2020, Vol 174, Issue 12, p1149
- ISSN
2168-6203
- Publication type
Article
- DOI
10.1001/jamapediatrics.2020.2991