Disclosed herein is an ingestible composition comprising a sphingan and its use as a prebiotic.

Jelly confectionery products and methods of producing the jelly confectionery products are provided. In a general embodiment, the present disclosure provides a jelly confectionery product having 1) an ingredient including fruit juice, fruit puree or a combination thereof, and 2) a jelly blend including a stabilizer and a fiber. The jelly confectionery product can be free of added sugar or corn syrup.

Provided is a storage and delivery system that includes a container containing a stable liquid composition therein for increasing the viscosity of an aqueous liquid or aqueous liquid solid mixture foodstuff and having a viscosity of less than 2000 cP and a water activity of greater than 95%, wherein the composition comprises one or more thickening agents and one or more polysaccharides, and a pump dispenser sealingly attached to the container and having a valve for inhibiting or preventing drying of the composition in the container. Further provided is a method of delivering a stable liquid composition to an aqueous liquid or aqueous liquid solid mixture foodstuff by use of the storage and delivery system. A method for increasing the viscosity of an aqueous liquid or aqueous liquid solid mixture foodstuff by adding the stable liquid composition thereto is also provided.

The invention relates to a method of producing a shelf stable ready-to-drink beverage product, comprising the steps of: providing an ingredient composition comprising micellar caseins and whey protein, having a total protein concentration of 1.5-8 wt. %, and wherein the composition has a casein to whey protein ratio of 90/10-60/40, adding divalent cations to provide a concentration of 3-20 mM free divalent cations in the ingredient composition, and 0.025-0.3 wt % of a stabilizing system comprising hydrocolloids, and subsequently heat treating the ingredient composition at ultra high temperature (UHT) at 135-150° C. for 3-30 s to form agglomerated proteins comprising casein and beta-lactoglobulin from the whey protein, the agglomerates having a size of 5-30 microns mean diameter D(4,3) as measured by laser diffraction. The invention also relates to a shelf stable ready-to-drink beverage product comprising aggregated proteins comprising micellar caseins and whey protein aggregates, wherein the product has a pH of 6.6-7.2, 1.5-8.0 wt. % milk proteins, a casein to whey protein ratio of 90/10-60/40, and a concentration of 3-20 mM divalent cations, and the aggregates are of 5-30 microns mean diameter D(4,3) as measured by laser diffraction.

Compositions and methods are described that promote health and increase a shelf-life of foods. The compositions may feature mixtures of fatty acids, vegetable gums, and oligosaccharides. When introduced into a food article, the compositions can act as a protective barrier for micronutrients, phytochemicals, and nutraceuticals such as may be found in food products, for example food additives, as the food products are stored and as the food products are being digested. The compositions can stabilize food products during prolonged storage and as ingested food products move through the digestive tract so that nutrients are available for absorption in a consumer's intestines. Methods for producing food additives using the compositions are also described.

Described herein is an edible coating for food products in which the coatings comprises a polysaccharide cross-linked with a cross-linking agent solution. Also described herein are methods for coating food products and forming clusters of food products. The use of the edible coating for extending the shelf-life of food products is also described.

The present invention is directed to a composition comprising rapeseed protein, a hydrocolloid, and a vegetable oil, and to the use of such composition in food products such as a beverage.

The present inventions relates to a method for the production of gellan gum, under mixing conditions, the method comprising a) providing a fermentation broth or other liquid medium containing gellan gum, b) if necessary adjusting the temperature and the pH of the fermentation broth/liquid medium to allow or facilitate enzymatic treatment in step c, c) adding one or more enzymes capable of reducing or abolishing the enzymatic activity of S. elodea derived arylsulfatase and/or β-glucuronidase, said one or more enzymes being added in an amount sufficient to reduce or abolish the enzymatic activity of S. elodea derived arylsulfatase and/or β-glucuronidase in the broth/liquid medium, and/or treating the broth/liquid medium at a temperature between 90° C. and 125° C. for a period of time sufficient to reduce or abolish the enzymatic activity of S. elodea derived arylsulfatase and/or β-glucuronidase in the broth/liquid medium, and d) optionally recovering the gellan gum from the gellan gum containing broth/liquid medium.

The present invention relates to a method and resulting food composition for reducing sodium in food products without impacting the salty taste of said food products. In particular, the present invention pertains to a method of producing a food composition, the method comprising the steps of: gelling a non-starch hydrocolloid polymer in an aqueous food matrix; cooling the food matrix comprising the jellified hydrocolloid polymer; and adding sodium to the cooled food matrix to form the food composition.

Provided is a starch film-forming composition, comprising: A, a first gelling agent; B, starch; C, a plasticizer; D, water; wherein the first gelling agent is a gellan gum with two gel temperatures, wherein the first gel temperature is 51 to 75° C. and the second gel temperature is 40° C. to 50° C. The present application relates to the field of food or pharmaceutical raw materials. The composition is obviously superior to the prior art in terms of rubber strength, toughness and forming bonding when used in preparation of soft capsules, can fully meet the requirements for industrial production of soft capsules and can be used as an alternative in soft capsule technology.