Conclusions
Intestinal dysbiosis affects oxidative stress, inflammatory response, and mucosal integrity. Although FMT is more effective than PCT in regulating oxidative stress, PCT may be preferred in pediatrics because the proportion and dose of transplanted bacteria can be standardized and individualized according to individual conditions.
Methods
Eight-day-old newborn C57BL/6 mice were randomly divided into the following four groups: the dam-fed group (control group); the NEC induction group (NEC group); the NEC induction and transplantation of Lactobacillus reuteri and Bifidobacterium infantis consortium group (NEC + PCT group); and the NEC induction and the FMT group (NEC + FMT). Intestinal injury, oxidative stress indexes, intestinal barrier function, and inflammatory cytokines were assessed in the terminal ileum.
Results
FMT more effectively modulates oxidative stress in the intestine than does PCT; however, the difference between the effects of PCT and FMT was not significant. The protective effect was associated with enhanced antioxidant capacity, regulation of the main components of the mucus layer, reduced inflammatory reactions, and improved intestinal integrity. Conclusions: Intestinal dysbiosis affects oxidative stress, inflammatory response, and mucosal integrity. Although FMT is more effective than PCT in regulating oxidative stress, PCT may be preferred in pediatrics because the proportion and dose of transplanted bacteria can be standardized and individualized according to individual conditions.