Investigation of the Ability of a Supplement to Increase Good Bacteria in the Human Intestine and Blood Sugar Levels (XOS2)

Prebiotics are highly effective and important for many applications in medicine. They are not absorbed and do not contribute to human nourishment, but rather exert a profound effect on the human bowel flora. The principal effect on the human bowel flora is to stimulate the growth of Bifidobacterium and Lactobacillus species. These are benign organisms in that they are seldom involved in infections or other pathological processes. However, numerous health promoting benefits of these bacterial genera have been noted, with effects on infectious and non-infectious disease. They induce host genes involved in innate immunity, sometimes in collaboration with other elements of the gut flora such as Bacteroides thetaiotaomicron and Lactobacillus casei. Animal studies 2 indicate a protective effect against bacterial translocation from the GI tract. An extensive cataloguing of genomes of bifidobacteria and other intestinal bacteria reveals that the bifids play a very significant role in many important areas such as carbohydrate, amino acid, nucleotide, lipid, inorganic ion transport and metabolism; energy production and conversion; cell wall and membrane biogenesis; signal transduction mechanisms; transcription and translation; and defense mechanisms .

The metabolic syndrome which includes non-alcoholic fatty liver disease, obesity, and insulin resistance has responded to prebiotics in rodent trials; it is estimated that 20-30% of populations in developed countries have this disease. Parnell and Reimer have demonstrated that prebiotics oligofructose supplementation has the potential to promote weight loss and improve glucose regulation in overweight adults likely through suppressed ghrelin and enhanced PYY1.

The investigators have completed a study at UCLA studying the effects of XOS on human microbiota. There were three phases including a 2-week run-in period, 8-week intervention period, and a 2-week washout. Thirty two volunteers were randomly assigned to take a supplement containing 1.4 g XOS (1.4g XOS 70P), 2.8 g XOS (2.8g XOS 70P) or placebo.

Total of 32 subjects were enrolled into the study. One subject from the placebo group and one from the low dose group dropped out of the study for non specific gastrointestinal complaint.

Altogether, 120 stool samples were received from 11 low dose subjects, 9 high dose subjects, and 10 placebo group subjects. Bacterial culture was performed from all the 120 stool samples received. One placebo group subject, two high dose group subjects, and two low dose group subjects were excluded from the analyses because of compromised specimen quality.

The Bifidobacterium counts of the subjects after high dose XOS intervention was significantly higher from the base line at 4, 8, and 10 weeks. Similarly, the increase of Bifidobacterium counts was significantly higher in the high XOS group at 4 weeks compared to the low XOS group. The low XOS group had significantly higher Bifidobacterium counts compared to the placebo group subjects at 8 and 10 weeks. The total anaerobic flora counts and to some degree the total aerobic flora counts of the subjects after high dose XOS intervention were significantly higher from the base-line at 4 and 8 weeks. The mean changes of total anaerobic flora counts were significantly higher in the high XOS group at 4, 8, and 10 weeks compared to the placebo group. Interestingly, also Bacteroides fragilis group counts of the subjects after high dose XOS intervention were significantly higher from the base line at 4, 8, and 10 weeks and the mean changes were significantly higher in the high XOS group compared to the low and placebo groups. There were no major significant differences in the counts of Lactobacillus sp., Enterobacteriaceae, and clostridia between the three dose groups evaluated

The XOS was tolerated well by all study subjects (normal adult). At base-line, most of the subjects had relatively high counts of Bifidobacterium species with lower counts of Lactobacillus species. Several different species of each of these genera were present. Bifidobacterium species showed significant increases in counts in subjects on XOS supplementation, with the higher dose group showing significantly greater increases than the lower dose group. Both high and low dose groups showed significantly higher counts of Bifidobacterium sub-species than the placebo group. Lactobacillus species counts did not increase significantly in subjects on XOS supplementation. There was a statistically significant increase in the counts of the B. fragilis group at all time periods for the high dose XOS group. As mentioned before, bifidobacteria may induce host genes involved in innate immunity in collaboration with other elements of the gut flora such as B. fragilis group. The increase in the counts of the "total anaerobes" reflects the increased counts in the Bifidobacterium and B. fragilis group, both of which are anaerobic. Some Bifidobacterium species may grow aerobically as well, which may be reflected in the modest increase of the aerobic counts in the high dose XOS group. In this study, the XOS supplementation had no significant effect on stool pH or SCFAs.

The investigators propose to conduct a 10 week, randomized, placebo controlled, two arm study with 20 subjects with metabolic syndrome. Subjects will be randomly assigned to take a powder mixture containing 2.8 g XOS (2.94g XOS 95P) or placebo.