A stabilized composition of fat soluble nutrient(s) includes a water soluble polymer and at least one nutraceutically acceptable excipient. The composition can be in the form of significantly amorphous aqueous microparticulate mixtures or as a solid beadlet product. A process for preparation of a stabilized composition includes a fat soluble nutrient solubilized in an organic solvent embedded in an aqueous polymer phase by evaporation, so as to obtain an aqueous microparticulate mixture. This mixture is stable, soluble and can be formulated for end use or can be layered on inert core for example to obtain stable beadlet(s) for use in solid dosage forms. Such stabilized aqueous microparticulate and solid beadlet compositions exhibit good solubility and dispersibility. Stabilized compositions of fat soluble nutrients can be prepared using industrially convenient equipment and can be formulated as per requirement for use in health applications.

A stabilized composition of fat soluble nutrient(s) includes a water soluble polymer and at least one nutraceutically acceptable excipient. The composition can be in the form of significantly amorphous aqueous microparticulate mixtures or as a solid beadlet product. A process for preparation of a stabilized composition includes a fat soluble nutrient solubilized in an organic solvent embedded in an aqueous polymer phase by evaporation, so as to obtain an aqueous microparticulate mixture. This mixture is stable, soluble and can be formulated for end use or can be layered on inert core for example to obtain stable beadlet(s) for use in solid dosage forms. Such stabilized aqueous microparticulate and solid beadlet compositions exhibit good solubility and dispersibility. Stabilized compositions of fat soluble nutrients can be prepared using industrially convenient equipment and can be formulated as per requirement for use in health applications.

A tobacco-free oral pouch product providing immediate and long lasting flavor release comprises a pouch wrapper and tobacco-free flavor beads contained within the pouch wrapper. The flavor beads comprise at least one of microcrystalline cellulose, pectin and sodium alginate, at least one polymer having a higher solubility in saliva than microcrystalline cellulose, pectin and/or sodium alginate, and at least one flavorant. The pectin and sodium alginate are cross-linked. The tobacco-free flavor beads provide immediate release of the flavorant upon placement of a pouch product in a user's mouth and long lasting release of the flavorant for about 15 minutes to about 80 minutes. The oral pouch product contains only tobacco-free flavor beads.

A tobacco-free oral pouch product providing immediate and long lasting flavor release comprises a pouch wrapper and tobacco-free flavor beads contained within the pouch wrapper. The flavor beads comprise at least one of microcrystalline cellulose, pectin and sodium alginate, at least one polymer having a higher solubility in saliva than microcrystalline cellulose, pectin and/or sodium alginate, and at least one flavorant. The pectin and sodium alginate are cross-linked. The tobacco-free flavor beads provide immediate release of the flavorant upon placement of a pouch product in a user's mouth and long lasting release of the flavorant for about 15 minutes to about 80 minutes. The oral pouch product contains only tobacco-free flavor beads.

The present invention discloses the use of a lycopene coated with a water non-soluble thin film comprising amphiphilic protein polymer for coloring with red color, foods, pharmaceuticals or cosmetics having fat and/or oil contents higher than 5%. The invention further discloses a process for the preparation of stable lycopene formulation comprising (a) treating an isolated protein to form a protein in a molecular form; (b) dispersing lycopene in an aqueous solution comprising an isolated protein in a molecular form; (c) grinding said dispersion to form lycopene particle size of 1 to 10 m forming an homogenized mixture comprising fine particles; and optionally (d) drying the homogenized mixture.

The present invention discloses the use of a lycopene coated with a water non-soluble thin film comprising amphiphilic protein polymer for coloring with red color, foods, pharmaceuticals or cosmetics having fat and/or oil contents higher than 5%. The invention further discloses a process for the preparation of stable lycopene formulation comprising (a) treating an isolated protein to form a protein in a molecular form; (b) dispersing lycopene in an aqueous solution comprising an isolated protein in a molecular form; (c) grinding said dispersion to form lycopene particle size of 1 to 10 m forming an homogenized mixture comprising fine particles; and optionally (d) drying the homogenized mixture.

The present patent application relates to a novel coating system for coating solid particles, which comprise PUFAs (and/or salts thereof), wherein the coating comprises at least one protein hydrolysate. Furthermore it relates to compositions coated with such a coating system and the use of such compositions in the production of food, feed, dietary supplements and/or pharmaceutical products.

The present patent application relates to a novel coating system for coating solid particles, which comprise PUFAs (and/or salts thereof), wherein the coating comprises at least one protein hydrolysate. Furthermore it relates to compositions coated with such a coating system and the use of such compositions in the production of food, feed, dietary supplements and/or pharmaceutical products.

There are provided microorganisms having a property of producing a lipid containing unsaturated fatty acids as constituent fatty acids and extracellularly secreting the produced lipid encapsulated in lipid particles, methods of screening said microorganisms, as well as methods of efficiently producing a fatty acid-containing lipid using said microorganisms. Furthermore, there are provided lipid particles encapsulating a lipid containing unsaturated fatty acids, and foods, cosmetics, and animal feeds comprising said lipid particles added thereto. Artificially treated microorganisms or microorganisms collected from nature are grown on a solid medium, and microbial strains that form lipid particles at the periphery of the colonies and/or microbial strains that, when cultured in a transparent liquid medium, make the culture liquid cloudy are selected. The microorganisms obtained are cultured, lipid-containing lipid particles secreted in the culture liquid, are separated from the culture liquid, and the lipid is separated and purified.

There are provided microorganisms having a property of producing a lipid containing unsaturated fatty acids as constituent fatty acids and extracellularly secreting the produced lipid encapsulated in lipid particles, methods of screening said microorganisms, as well as methods of efficiently producing a fatty acid-containing lipid using said microorganisms. Furthermore, there are provided lipid particles encapsulating a lipid containing unsaturated fatty acids, and foods, cosmetics, and animal feeds comprising said lipid particles added thereto. Artificially treated microorganisms or microorganisms collected from nature are grown on a solid medium, and microbial strains that form lipid particles at the periphery of the colonies and/or microbial strains that, when cultured in a transparent liquid medium, make the culture liquid cloudy are selected. The microorganisms obtained are cultured, lipid-containing lipid particles secreted in the culture liquid, are separated from the culture liquid, and the lipid is separated and purified.