The invention concerns nutritional compositions comprising lipid globules that are larger than conventional and comprise a coating comprising milk derived phospholipids that have a beneficial effect on gut maturation.

A thickening composition contains xanthan gum having per 100 parts by weight thereof, at least 0.5 parts by weight or more of metal salt bound on the surface of xanthan gum powder. This thickening composition is capable of convenient viscosity development by addition to water-containing objects. Thus, the thickening composition is suitable for use in, for example, food applications for convenient thickening of soft drinks, basting, sauce, dressing, soup, mousse, jelly, or the like, or application for viscosity development by addition of a small amount thereof to meals for patients having difficulty in mastication/swallowing, for example due to eating disorder.

A vegetable substance-made synthetic egg includes a vegetable substance-made synthetic egg powder that is in a dry form and packed in an enclosed form. To use, water of a predetermined ratio is uniformly mixed with the egg powder made of vegetable substance to make an egg liquid that is heatable and cookable to make egg cuisines of scrambled egg and fried egg, and as such, mimicking of an actual egg can be realized as being made close to the actual egg in respect of taste and quality and containing zero cholesterol and allowing for easy carrying, storing, and cooking. A composition of the egg powder made up of vegetable substances includes at least 50.00% of rice protein, 5.00% of gellan gum, 1.50% of sodium alginate, 0.50% of calcium lactate, 0.10% of lutein, 3.00% of yeast powder, 5.00% of xanthan gum and 31.90% of corn flour, and 3.00% of edible salt.

A frozen stuffed fish ball with low soup loss and the method of preparing the same. By combining hydrocolloid and oil pre-emulsification technology, the problems of taste of powder, soup loss of fish balls after freeze-thaw cooking and the taste of frozen stuffed fish balls after freeze-thaw cooking are solved. The use of konjac gum and carrageenan or curdlan respectively, combined with oil pre-emulsification technology, also effectively improves the texture and brightness of the outer skin of fish balls. Compared with a single addition of conventional technology, the hardness, elasticity and brightness are increased, solving loosen structure, brightness and other problems due to freeze-thaw cycle. Further, it may be used in the fish ball processing line for preparing fish ball with fillings and other stuffed surimi products.

A liquid egg analog has a composition comprising water, lupin protein, pea protein, oil, high acyl and low acyl gellan gum, tetrasodium pyrophosphate, isomaltooligosaccharide, acidulant, and divalent cations of magnesium and calcium. A method of preparing the liquid egg analog combines water, lupin protein and pea protein to produce a protein mix, combines water and gellan gums to produce a gel mix, and combines the protein mix and gel mix with the remaining ingredients to produce a combined mixture. The combined mixture may then be pasteurized, cooled and bottled.

Disclosed is a curcumin nanoparticle, including curcumin as core material and a wall material, where a weight ratio of the curcumin to the wall material is (5.5-7.5):100, and the wall material includes gum arabic and zein in a weight ratio of (1-5):5. The disclosure further provides a method of making the curcumin nanoparticle and a curcumin beverage containing the curcumin nanoparticle.

A method for preparing a Pickering emulsion using a peanut protein isolate includes preparing a peanut protein isolate dispersion liquid from a peanut protein isolate solution as a raw material; preparing a mixed dispersion of protein and polysaccharide using a polysaccharide solution and the peanut protein isolate dispersion; adding transglutaminase to the mixed dispersion of protein and polysaccharide, preparing a monolithic gel by cross-linking reaction; preparing a microgel particle dispersion by using the monolithic gel as a raw material; and further adding the microgel particle dispersion to an edible oil to obtain a Pickering emulsion. During the preparation process, no inorganic material is added, and the obtained Pickering emulsion has good biosafety and strong biocompatibility. The prepared Pickering emulsion can keep stable at room temperature for 30 days or more, and can be used as a delivery system for fat-soluble and photosensitive active substances.

A method for preparing a Pickering emulsion using a peanut protein isolate includes preparing a peanut protein isolate dispersion liquid from a peanut protein isolate solution as a raw material; preparing a mixed dispersion of protein and polysaccharide using a polysaccharide solution and the peanut protein isolate dispersion; adding transglutaminase to the mixed dispersion of protein and polysaccharide, preparing a monolithic gel by cross-linking reaction; preparing a microgel particle dispersion by using the monolithic gel as a raw material; and further adding the microgel particle dispersion to an edible oil to obtain a Pickering emulsion. During the preparation process, no inorganic material is added, and the obtained Pickering emulsion has good biosafety and strong biocompatibility. The prepared Pickering emulsion can keep stable at room temperature for 30 days or more, and can be used as a delivery system for fat-soluble and photosensitive active substances.

The present invention provides a process for producing instant noodles and an instant noodle product from dragon fruits using ultra-sonication technology, wherein the process comprises: a) Pre-processing dragon fruit ingredients; b) Heating the dragon fruit solution to room temperature; c) Activating the dragon fruit solution; d) Removing impurities of the powdery ingredients through a sieve; e) Performing a catalytic reaction between the activated dragon fruit solution and other ingredients of the instant noodles; f) Proofing; g) Pressing the dough; h) Shape cutting into noodles; i) Steaming instant noodles; j) Macerating with seasonings; k) Cooling and frying (instant noodle product from dragon fruits using ultra-sonication technology with frying); 1) Cooling and drying (instant noodle product from dragon fruits using ultra-sonication technology without frying); m) Cooling; n) Drying and cooling; o) Packaging.

Compositions comprising oxidized dextran compounds are disclosed herein. Oxidized dextran compounds are produced by contacting dextran under aqueous conditions with at least one N-oxoammonium salt, at least one periodate compound, and/or at least one peroxide compound.