2 research outputs found
Effects of intra-amniotic lipopolysaccharide and maternal betamethasone on brain inflammation in fetal sheep
Rationale: Chorioamnionitis and antenatal glucocorticoids are common exposures for preterm infants and can affect the fetal brain, contributing to cognitive and motor deficits in preterm infants. The effects of antenatal glucocorticoids on the brain in the setting of chorioamnionitis are unknown. We hypothesized that antenatal glucocorticoids would modulate inflammation in the brain and prevent hippocampal and white matter injury after intra-amniotic lipopolysaccharide (LPS) exposure. Methods: Time-mated ewes received saline (control), an intra-amniotic injection of 10 mg LPS at 106d GA or 113d GA, maternal intra-muscular betamethasone (0.5 mg/kg maternal weight) alone at 113d GA, betamethasone at 106d GA before LPS or betamethasone at 113d GA after LPS. Animals were delivered at 120d GA (term=150d). Brain structure volumes were measured on T2-weighted MRI images. The subcortical white matter (SCWM), periventricular white matter (PVWM) and hippocampus were analyzed for microglia, astrocytes, apoptosis, proliferation, myelin and pre-synaptic vesicles. Results: LPS and/or betamethasone exposure at different time-points during gestation did not alter brain structure volumes on MRI. Betamethasone alone did not alter any of the measurements. Intra-amniotic LPS at 106d or 113d GA induced inflammation as indicated by increased microglial and astrocyte recruitment which was paralleled by increased apoptosis and hypomyelination in the SCWM and decreased synaptophysin density in the hippocampus. Betamethasone before the LPS exposure at 113d GA prevented microglial activation and the decrease in synaptophysin. Betamethasone after LPS exposure increased microglial infiltration and apoptosis. Conclusion: Intra-uterine LPS exposure for 7d or 14d before delivery induced inflammation and injury in the fetal white matter and hippocampus. Antenatal glucocorticoids aggravated the inflammatory changes in the brain caused by pre-existing intra-amniotic inflammation. Antenatal glucocorticoids prior to LPS reduced the effects of intra-uterine inflammation on the brain. The timing of glucocorticoid administration in the setting of chorioamnionitis can alter outcomes for the fetal brain
Early origins of lung disease: Towards an interdisciplinary approach
The prenatal and perinatal environments can have profound effects on the development of
chronic inflammatory diseases. However, mechanistic insight into how the early-life microenvironment
can impact upon development of the lung and immune system and consequent initiation and progression
of respiratory diseases is still emerging. Recent studies investigating the developmental origins of lung
diseases have started to delineate the effects of early-life changes in the lung, environmental exposures and
immune maturation on the development of childhood and adult lung diseases. While the influencing
factors have been described and studied in mostly animal models, it remains challenging to pinpoint
exactly which factors and at which time point are detrimental in lung development leading to respiratory
disease later in life. To advance our understanding of early origins of chronic lung disease and to allow for
proper dissemination and application of this knowledge, we propose four major focus areas: 1) policy and
education; 2) clinical assessment; 3) basic and translational research; and 4) infrastructure and tools, and
discuss future directions for advancement. This review is a follow-up of the discussions at the European
Respiratory Society Research Seminar “Early origins of lung disease: towards an interdisciplinary
approach” (Lisbon, Portugal, November 2019)