The effect of the novel bifidogenic trisaccharide, neokestose, on the human colonic microbiota

The potential prebiotic effect of the fructo-trisaccharide, neokestose, on intestinal bacteria was investigated. Bifidobacterium sp. utilized neokestose to a greater extend and produced more biomass from neokestose than facultative anaerobes under anaerobic conditions in batch culture. Lactobacillus salivarius utilized glucose but negligible amounts of neokestose. L. salivarius and the facultative anaerobes produced significantly more biomass from glucose than from neokestose, whereas the biomass yields obtained with bifidobacteria on neokestose and glucose, respectively, were not significantly different. Static batch cultures inoculated with faeces supported the prebiotic effect of neokestose, which had been observed in the pure culture investigations. Bifidobacteria and lactobacilli were increased while potentially detrimental coliforms, clostridia and bacteroides, decreased after 24 h fermentation with neokestose. In addition, this effect was more pronounced with neokestose than with a commercial prebiotic fructo-oligosaccharide. It was concluded that neokestose has potential as a novel bifidogenic substance and that it might have advantages over the commercially available sources currently used.

Factors affecting hydrogen uptake by bacteria growing in the human large intestine

The human large intestine is a highly complex ecosystem that contains somewhere in the region of 400 different species of bacterial1.The vast majority of these bacteria are strict anaerobes and grow on a wide variety of substrates that have either escaped digestion in the small bowel or have been produced by the host2. In Western populations, between 10–60g of carbohydrate and 6–18g of proteinaceous material are potentially available for fermentation each day, producing a total bacterial mass of approximately 90g3.