Subject of the invention is a composition for oral administration comprising a beverage and beads distributed in the beverage, wherein the beads have an average diameter between 2 to 10 mm, comprise more than 50% (w/w) dietary fibres, and wherein the amount of beads in the composition is between 1 and 20 wt. %. The invention also relates to devices and uses of the composition for reducing the weight of an individual and/or preventing weight gain.

Subject of the invention is a composition for oral administration comprising a beverage and beads distributed in the beverage, wherein the beads have an average diameter between 2 to 10 mm, comprise more than 50% (w/w) dietary fibres, and wherein the amount of beads in the composition is between 1 and 20 wt. %. The invention also relates to devices and uses of the composition for reducing the weight of an individual and/or preventing weight gain.

An object of the present invention is to provide a technique of suppressing precipitation of an anthocyanin pigment in a range other than the highly acidic range.

The present invention provides an anthocyanin pigment preparation, comprising: an anthocyanin pigment; and an emulsifier, wherein the pH when the anthocyanin pigment preparation is diluted with water or dissolved in water so that a color value becomes 10 is more than 3.

Microparticles include a matrix of an encapsulating material, in which are dispersed particles of a low melting point fat and a bioactive material, such as one or more probiotic bacteria. The microparticles are formed by preparing an emulsion of melted low melting point fat in an aqueous mixture of the encapsulating material, cooling the emulsion below the melting point of the low melting point fat, dispersing the bioactive material in the emulsion and spray drying the emulsion. The particles of solid low melting point fat are believed to protect the bioactive material from heat damage during the spray drying process.

Microparticles include a matrix of an encapsulating material, in which are dispersed particles of a low melting point fat and a bioactive material, such as one or more probiotic bacteria. The microparticles are formed by preparing an emulsion of melted low melting point fat in an aqueous mixture of the encapsulating material, cooling the emulsion below the melting point of the low melting point fat, dispersing the bioactive material in the emulsion and spray drying the emulsion. The particles of solid low melting point fat are believed to protect the bioactive material from heat damage during the spray drying process.

The present disclosure relates to nutritional compositions containing a fiber blend that includes soluble fibers that are fructo-oligosaccharide (FOS), acacia gum and inulin and also includes insoluble fibers that are outer pea fibers. In an embodiment, the fiber blend includes about 50% soluble fibers and about 50% insoluble fibers, and the soluble fibers are FOS in an amount of about 41% by weight of the soluble fibers, acacia gum in an amount of about 41% by weight of the soluble fibers, and inulin in an amount of about 18% by weight of the soluble fibers. In such an embodiment, the insoluble fibers are outer pea fibers. The present disclosure also relates to methods that include administering a therapeutically effective amount of a fiber blend that includes FOS, acacia gum, inulin and outer pea fibers to a patient after antibiotic treatment.

The present disclosure relates to nutritional compositions containing a fiber blend that includes soluble fibers that are fructo-oligosaccharide (FOS), acacia gum and inulin and also includes insoluble fibers that are outer pea fibers. In an embodiment, the fiber blend includes about 50% soluble fibers and about 50% insoluble fibers, and the soluble fibers are FOS in an amount of about 41% by weight of the soluble fibers, acacia gum in an amount of about 41% by weight of the soluble fibers, and inulin in an amount of about 18% by weight of the soluble fibers. In such an embodiment, the insoluble fibers are outer pea fibers. The present disclosure also relates to methods that include administering a therapeutically effective amount of a fiber blend that includes FOS, acacia gum, inulin and outer pea fibers to a patient after antibiotic treatment.

The present invention provides a flavored sports gel, which synergistically aids in energy production, such as in muscles and restores electrolytes. This product provides nutrients without any caffeine while retaining efficacy.

The present invention provides a flavored sports gel, which synergistically aids in energy production, such as in muscles and restores electrolytes. This product provides nutrients without any caffeine while retaining efficacy.

The present invention provides a protein composition comprising a milk basic protein fraction; and at least one stabilizer selected from the group consisting of soybean polysaccharides, xanthan gum, pectin, gum arabic, gum ghatti, carrageenan, locust bean gum, sodium caseinate, lecithin, and carboxymethylcellulose. The protein composition significantly improves the heat resistance of the milk basic protein fraction. The present invention achieves heat treatment of a protein composition and food, beverage, feed, and pharmaceutical comprising such a protein composition at a temperature exceeding 90 C. without deactivation of the milk basic protein fraction.