Changes in the intestinal microbiome of the preterm baby associated with stopping non-invasive pressure support: a prospective cohort study

BackgroundIntestinal dysbiosis is implicated in the pathogenesis of necrotising enterocolitis and late-onset sepsis in preterm babies. The provision of non-invasive positive pressure ventilation is a common clinical intervention in preterm babies, and may be hypothesised to adversely affect intestinal bacterial growth, through increased aerophagia and induction of a hyperoxic intestinal environment; however this relationship has not been previously well characterised.MethodologyIn this prospectively recruited cohort study, high-throughput 16S rRNA gene sequencing was combined with contemporaneous clinical data collection, to assess within-subject changes in microbiome development around the time of transitioning from non-invasive positive pressure respiratory support to unsupported spontaneous breathing.ResultsIn a group of 14 preterm infants, bacterial diversity was seen to increase by 0.34 units/week (inverse Simpson index) at the point of transitioning off non-invasive positive pressure respiratory support. Correspondingly, a significant increase in anaerobic genera (Bifidobacteria spp, Veillonella spp), and a non-significant fall in Enterobacteriaceae was also seen at this time.ConclusionsProvision of non-invasive positive pressure ventilation is associated with suppression of both diversity accrual and obligate anaerobic growth in the preterm intestine. This has clinical implications in view of the widespread use of non-invasive positive pressure ventilation in preterm neonatal care (and wider adult use), and demonstrates the need for potential strategies (eg, probiotic support; reduced aerophagia) to support the development of a healthy gut microbiome during this time.