Microbiome Clinical Trial
Official title:
The Premature Gut Microbiome and the Influence on Neonatal Immunity, Brain Development and White Matter Injury
Recent advances in neonatal intensive care have dramatically increased the survival rate of
extremely premature infants but the number of survivors with severe morbidity and lifelong
neurodevelopmental impairment remains high. Perinatal white matter injury is the predominant
form of brain injury in premature infants, often leading to adverse neurodevelopmental
outcome. Intrauterine and neonatal infection and inflammation have been identified as major
risk factors of neonatal brain injury. The fragile gut microbiome of premature infants seems
to play an important role in health and disease as distortions of the microbiome occur prior
to sepsis and necrotizing enterocolitis. Furthermore, the close link of the gut microbiome to
neurological and psychiatric diseases in animal models suggests that the microbiome may
influence brain maturation and development in preterm infants. Recent studies have underlined
the importance of regulatory T cells as well as γδ T cells in brain injury, which can be
directly influenced by the gut microbiome. It is therefore likely that an underdeveloped or
distorted gut microbiome affects host immune response and may be a risk factor for
neurodevelopmental disabilities in extremely premature infants who are already challenged by
the unphysiologic early extrauterine environment after premature birth which affects
maturation of the gut microbiome and immune system as well as neurophysiological maturation
alike.
Therefore, the overarching aim of the PreMiBraIn study is to elucidate the role of the
gut-immune-brain axis on neonatal brain injury and its impact on long-term neurodevelopmental
outcome of extremely premature infants. The study cohort will consist of a total of 60
extremely premature infants with a gestational age < 28 weeks and birth weight < 1000 grams.
The investigators seek to characterize the orchestrated dynamics of the maturation of the gut
microbiome and the subsequent impact on maturation of innate and adaptive immune mechanisms
as well as neurophysiological maturation and neurodevelopmental outcome. Furthermore, the
investigators will assess the value of the microbiome as a prognostic indicator for neonatal
brain injury as well as short- and long-term neurodevelopmental outcome of extremely
premature infants.
This goal will be achieved by state-of-the-art techniques using 16s rRNA gene sequencing of
the gut microbiome, holistic analysis of T cell biology using flow cytometry, whole
transcriptome analysis and proteomics as well as neurophysiological measurements
(amplitude-integrated EEG, near-infrared spectroscopy, visual evoked potentials) and cranial
MRI of extremely premature infants. Short- and long-term neurological outcome will be
investigated using Bayley Scales of Infant Development, Third Edition at one and two years
corrected age, and Kaufmann-Assessment Battery for Children at five years of age. The
investigators expect to find microbiome signatures that are predictive for later
neurodevelopmental disabilities which may then be used for early screening and intervention
and may suggest personalized therapeutic options. The prospects of precision medicine
targeting the gut-immune-brain axis in extremely premature infants hold the opportunity to
improve the overall outcome of these high-risk patients.
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