The protective effects of low- and high-fermentable dietary fibers on fecal microflora with antibiotic disturbance in in vitro fecal fermentation

Antibiotics adversely affect intestinal communities and prebiotic fibers are effective to counteract the side effects of antibiotics. The effects of prebiotic fibers vary due to their molecular characteristics. This study compared the effects of three fibers with different fermentation rates on fecal microflora with the perturbance of antibiotics in vitro. The results showed that supplementation of the low-fermentable fiber (konjac glucomannan, KGM) enhanced the viability of several gut bacterial groups and increased the production of acetic acid and total SCFAs better than the high-(galactooligosaccharides, GOS) and moderate-fermentable fibers (inulin, INU) with anti-biotic disturbance. The relative abundance of Bacteroidetes was significantly lowered after fermentation with GOS compared with KGM and INU in the presence of ampicillin. KGM fermentation also maintained the relative abundance of possible butyric acid producer Clostridium. These results suggest that low-fermentable carbohy-drates confer better effects to relieve or counteract antibiotic influence on gut microbiome.

Automated summary

Antibiotics have negative effects on intestinal communities, but these effects can be counteracted by prebiotic fibers. The study compared the effects of three fibers with different fermentation rates on fecal microflora in the presence of antibiotics. The results showed that low-fermentable fiber had the best effects in enhancing gut bacterial groups and increasing the production of certain acids.