Some embodiments of the invention include a composition and method for treating dysbiosis in infants. The composition may include a mixture of activated bifidobacteria and a complex oligosaccharide wherein the complex oligosaccharide may be derived from a human or non-human source.

The present invention relates to a method for producing marine algae-derived agarotriose, and a use thereof as a prebiotic. More specifically, the present invention investigates the characteristics of agarotriose as a prebiotic which is selectively metabolized by probiotic microorganisms, thereby enabling agarotriose to be used as an anti-cancer or anti-inflammatory agent in the fields of food and pharmaceuticals, and enabling agarotriose to be obtained at high yield through efficient purification with minimal loss after enzymatic hydrolysis of a red algae-derived polysaccharide without pre-treatment.

This invention relates generally to methods and compositions to achieve and maintain a desirable in vivo phenotype during fermentation and processing of food products for human or animal consumption. The methods and compositions of this invention require an activator that acts as a metabolic trigger for Mammalian Milk Oligosaccharide (MMO) consumption phenotype without necessarily requiring oligosaccharides (i.e a sugar polymer of 3 or more monosaccharides) within the fermentation medium. Compositions containing a non-oligosaccharide activator (e.g. monomers and dimers, and combinations thereof) may be used in fermentation processes of this invention. Turning on MMO-related genes without the use of oligosaccharides is one method of preparing activated commensal bacteria. Embodiments of this invention relate to a composition and a method for preparing a stable, activated and dormant form of commensal bacteria such as: bifidobacteria, lactobacilli or pediococci; for consumption by animals or humans, who are nursing or otherwise receiving MMOs as part of their diet.

Processes for producing a nutritional supplement that contains sulforaphane, and supplements formed thereby. Such a process includes combining a cruciferous vegetable, for example, broccoli sprouts, with strains of Bifidobacterium, Lactobacillus, and Streptococcus to form a mixture, causing the mixture to undergo lactic acid fermentation, transform a glucosinolate within the cruciferous vegetable to sulforaphane, and yield a fermented mixture that contains sulforaphane, and then producing from the fermented mixture a supplement that can be ingested by an individual.

This invention provides compositions of oligosaccharides, their preparation, and their use to facilitate the growth of certain beneficial gut bacteria over other gut bacteria in a mammal in order to prevent gastrointestinal distress associated with a major change in gut microflora, such as that which occurs when an infant is weaned from its mother's milk to alternative food sources, or during the recovery of the gut microbiome after a course of oral antibiotics, hospitalization, therapy such as chemotherapy or radiation treatments, or conditions where a deficiency in dietary fiber is observed. Novel compositions of oligosaccharides, oligosaccharides and bacteria, foods comprising those compositions, and methods of preparation and use of those compositions are described.

Some embodiments of the invention include a composition and method for treating dysbiosis in infants. The composition may include a mixture of activated bifidobacteria and a complex oligosaccharide wherein the complex oligosaccharide may be derived from a human or non-human source.

Some embodiments of the invention include a composition and method for treating dysbiosis in infants. The composition may include a mixture of activated bifidobacteria and a complex oligosaccharide wherein the complex oligosaccharide may be derived from a human or non-human source.

A sweetener composition comprising xylose, a sugar alcohol and brown seaweed extract in solid form, preferably powdered or crystalline form. The sugar alcohol is preferably an erythritol and the brown seaweed extract is preferably obtained from Laminaria japonica. The sweetener composition can further comprise one or a combination of additional vitamins, minerals, probiotic cultures, and other plant-based extracts.

The present invention relates to a method for producing marine algae-derived agarotriose, and a use thereof as a prebiotic. More specifically, the present invention investigates the characteristics of agarotriose as a prebiotic which is selectively metabolized by probiotic microorganisms, thereby enabling agarotriose to be used as an anti-cancer or anti-inflammatory agent in the fields of food and pharmaceuticals, and enabling agarotriose to be obtained at high yield through efficient purification with minimal loss after enzymatic hydrolysis of a red algae-derived polysaccharide without pre-treatment.

The present disclosure provides a method for formulating a composition of isolated and purified microbes. The present disclosure provides methods for formulating a composition for administration to a subject in need thereof. The method can comprise obtaining a mixture that is substantially dry and comprises about 10% or less residual moisture. The mixture can comprise a population of isolated and purified microbes and a pharmaceutically acceptable carrier. The population can comprise one or more obligate anaerobes that are oxygen-stable. The methods can further comprise encapsulating said mixture in an enteric-coated capsule for delivery to said subject.