Intestinal Microbiome Clinical Trial
Official title:
Cesarean Section and Intestinal Flora of the Newborn
Mode of delivery affects gut microbiome of the infant. Infants born by caesarean section have a less heterogenous microbiome for the first weeks of life. This has been associated with an increased risk for atopy-related diseases, such as allergy and asthma. In this proof-of-principle study the investigators evaluate whether an orally delivered maternal fecal transplant to the infant during the first hours of life affects gut microbiome of the infant
Background
The immune system is affected by the colonizing microbiome. The gut microbiome has been
associated with a multitude of inflammatory diseases, such as the development of autoimmune
diseases. The association between microbiome and allergic diseases, asthma, type I diabetes
and inflammatory bowel diseases have been demonstrated. Moreover, changes in gut microbiome
during the first weeks of life have been associated with the development of atopy.
Already at birth, a low concentration of bacteria is present in the meconium of the vaginally
delivered infant. Although the neonatal stool is not fully sterile, colonization of the
intestinal tract takes place at delivery and throughout the first years of life. The gut
microbiome of infants delivered vaginally (VD) and by cesarean section (CS) differs markedly
from each other and this difference persists throughout the first years of life. The gut
microbiome of infants born by CS have a lower total microbiota diversity and lower Th1
response than those born by VD. Infants delivered by CS been shown to be more likely to
develop chronic inflammatory and allergic diseases, eg. inflammatory bowel disease, and
systemic connective disorders, and asthma than those delivered vaginally.
Partial restoration of the microbiota of CS-infants was seen when introduced with vaginal
microbial transfer. However, the vaginal microbiome is very limited to mainly Lactobacillus
spp. and does not contain the microbes that are abundant in the gut microbiota of the mother.
Fecal transplantation, or intestinal microbiota transfer, is used to treat chronic infections
of Clostridium difficile. However, fecal transplantation has not been used to compensate for
the low diversity of CS infants. In this pilot, proof-of-concept and safety evaluation study,
the researchers aim to assess the feasibility of fecal transplantation after birth in infants
delivered by CS.
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