Background: Necrotizing enterocolitis (NEC) and sepsis in preterm infants have been linked to intestinal immaturity and preclinical gut microbiota alterations. An important yet understudied contributor in the development of the gastrointestinal tract (GIT) is amniotic fluid (AF). Knowledge is lacking on the critical shifts that may occur in AF in extremely preterm birth. The aim of the current study is to assess the composition of AF using advanced biomedical techniques. Secondary objectives are to assess AF profiles of infants with chorioamnionitis (CAM) and/or fetal growth restriction (FGR), assess key metabolites across gestation, correlate AF profiles with neonatal outcomes, and explore associations with early gut microbiota. Methods: ln this multicenter, prospective, cohort study, AF (\~5 mL) will be collected from obstetric patients delivering their infants extremely preterm (gestational age (GA) 24+0/7-27+6/7 weeks, n=125), either during vaginal delivery or cesarean section (CS). Additionally, AF samples will be collected from a reference group (n=150), including early midtrimester (GA \<23+/7 weeks), very early and moderate to late preterm (GA 28+0/6-36+6/7 weeks), and full-term pregnancies (GA 37+0/7-41+6/7 weeks). Thorough characterization of AF will be conducted, including microbial profiling and metabolomics. Microbiota profiling of neonatal fecal samples will be conducted to assess the association between AF and early neonatal gut colonization patterns. Discussion and expected results: AF profiles associated with CAM and/or FGR in extremely preterm infants are expected to be identified, as well as relevant associations with neonatal health outcomes (including NEC and sepsis) and early neonatal gut colonization patterns. The current study will not only increase the understanding of the GIT development and the pathogenesis of NEC and sepsis but may also aid in the identification of high-risk infants. In the future, these findings may facilitate early targeted microbiota-based interventions to prevent disease progression and ultimately improve clinical outcomes.
Study Type
OBSERVATIONAL
Enrollment
275
Amsterdam UMC
Amsterdam, Netherlands
RECRUITINGMáxima Medical Center
Veldhoven, Netherlands
RECRUITINGAF & preterm birth
Microbial \& metabolic composition of amniotic fluid in extremely preterm birth
Time frame: Baseline
AF profiles & chorioamnionitis
Characterizion of AF profiles in infants exposed to chorioamnionitis
Time frame: Baseline
AF & fetal growth restriction
Characterizion of AF profiles in infants with fetal growth restriction
Time frame: Baseline
AF & neonatal gut microbiota
To correlate composition of amniotic fluid to neonatal gut microbiota in first month of life
Time frame: For AF baseline measurement, for neonatal gut microbiota composition at t=0, t=7, t=14, t=21, and t=28 (postnatal days)
Hendrik Niemarkt, dr
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