The invention relates to a protein hydrolysate and a process for making such protein hydrolysate. In particular the invention relates to a collagen hydrolysate and a process for making such collagen hydrolysate. Further the invention relates to a food, pet food, cosmetic, pharmaceutical or technical application comprising the protein hydrolysate of the present invention and further food, pet food, cosmetic, pharmaceutical or technical constituents.

The present invention relates to methods for producing nanoparticle and microparticle powders of a biologically active material which have improved powder handling properties making the powders suitable for commercial use using dry milling processes as well as compositions comprising such materials, medicaments produced using said biologically active materials in particulate form and/or compositions, and to methods of treatment of an animal, including man, using a therapeutically effective amount of said biologically active materials administered by way of said medicaments.

The present invention relates to methods for producing nanoparticle and microparticle powders of a biologically active material which have improved powder handling properties making the powders suitable for commercial use using dry milling processes as well as compositions comprising such materials, medicaments produced using said biologically active materials in particulate form and/or compositions, and to methods of treatment of an animal, including man, using a therapeutically effective amount of said biologically active materials administered by way of said medicaments.

An object of the present invention is to provide, when preparing food products for dysphagia patients, a food product for dysphagia patients having useful functions of probiotics and capable of delivering probiotics administered to a dysphagia patient to the intestines as viable cells by imparting functions of probiotics to such food products, and a thickening composition therefor. For achieving these objects, the present invention provides a thickening composition for dysphagia patients prepared as a powder mixture by mixing dried probiotic cells or a dried probiotic cell preparation and one or more polysaccharides selected from the group consisting of polysaccharides consisting of xanthan gum or guar gum and hydrolysates of these polysaccharides, wherein in the powder mixture, the probiotics and the polysaccharides are allowed to coexist in a contact state. The thickening composition for dysphagia patients is prepared as a powder mixture and the probiotics in the thickening composition can be stably retained without employing special conditions, and when a food product for dysphagia patients is produced by using the thickening composition, a probiotics-containing food product for dysphagia patients having stability against decomposition action by gastric juice after such a food product is eaten can be provided.

An object of the present invention is to provide, when preparing food products for dysphagia patients, a food product for dysphagia patients having useful functions of probiotics and capable of delivering probiotics administered to a dysphagia patient to the intestines as viable cells by imparting functions of probiotics to such food products, and a thickening composition therefor. For achieving these objects, the present invention provides a thickening composition for dysphagia patients prepared as a powder mixture by mixing dried probiotic cells or a dried probiotic cell preparation and one or more polysaccharides selected from the group consisting of polysaccharides consisting of xanthan gum or guar gum and hydrolysates of these polysaccharides, wherein in the powder mixture, the probiotics and the polysaccharides are allowed to coexist in a contact state. The thickening composition for dysphagia patients is prepared as a powder mixture and the probiotics in the thickening composition can be stably retained without employing special conditions, and when a food product for dysphagia patients is produced by using the thickening composition, a probiotics-containing food product for dysphagia patients having stability against decomposition action by gastric juice after such a food product is eaten can be provided.

The present invention relates to a pulverulent vitamin formulation in which the vitamin essentially has a particle size of less than 0.7 m and which comprises an effective amount of propyl gallate, and also to processes for producing this formulation, and to formulations obtainable by these processes and to the use thereof as animal feed, food, food supplement, personal care product or pharmaceutical composition. The formulations of the invention have improved stability compared to the prior art.

The present invention relates to a pulverulent vitamin formulation in which the vitamin essentially has a particle size of less than 0.7 m and which comprises an effective amount of propyl gallate, and also to processes for producing this formulation, and to formulations obtainable by these processes and to the use thereof as animal feed, food, food supplement, personal care product or pharmaceutical composition. The formulations of the invention have improved stability compared to the prior art.

The present invention relates to the field of powders, particularly food powders, and to the avoidance of caking in such powders by using compositions comprising dehydrated or partially dehydrated disodium inosine monophosphate salts.

A frozen product of minced fish meat frozen into granules includes: 90 wt % or more of meat granules having a substantially columnar shape with a 3 mm to 7 mm diameter; and 10 wt % or less of meat granules with a short diameter of 2 mm or less. A method of producing the minced fish meat frozen into granules includes: raising the temperature of fish meat which has been frozen at 20 C. or less to a temperature of from 10 C. to 5 C.; mincing the fish meat while maintaining the temperature of the fish meat at 10 C. to 5 C. by using a meat mincer having a feed screw, a plate, and a plate knife at a rotation speed of 200 rpm or less; lowering the temperature of minced fish meat to 20 C. or less; and crushing the minced fish meat frozen at 20 C. or less into granules.

A process for modifying starches comprises atomising an aqueous slurry of a non-pregelatmised, granular, high amylose starch into an internal chamber in a bi-fluid nozzle of a dryer and treating the atomized slurry, in the internal chamber, with medium pressure steam to produce a slurry of partially treated starch granules followed by discharging the slurry into a reactor where it is contacted with superheated steam to produce dry, particulate, cold water-swelling, intact, high amylose starch granules. The cold water-swelling, intact, high amylose starch granules have greater than 15% solubles. At a starch concentration of 1%, in UDMSO (9 volumes DMSO and 1 volume 6M urea) at 25 C., the ratio of apparent viscosity of said cold water-swelling, intact, high amylose starch granules to the apparent viscosity of the parent non-pregelatinised, granular, high amylose starch is lower than 1.00. The cold water-swelling, high amylose granular starch of the invention is useful in the manufacture of food products, especially confectionery products and convenience food products.