This disclosure provides novel compositions comprising a pectin, a first xanthan gum, and optionally a second xanthan gum. These compositions are useful for improving mouthfeel properties of non-nutritive sweeteners, such as steviol glycosides and blends thereof, in food and beverages containing the same.

The present disclosure relates generally to fiber blends and their use in various comestible products, such as food products, beverage products, nutritional products, dairy analogues, meat analogies, and animal feed products. In some embodiments, the fiber blends contain prebiotic fibers, such as inulin, for example to deliver health and nutrition benefits, as well as, additional benefits, such as texture, binding, bulking, viscosity enhancement, and the like. In some embodiments, the fiber blends contain psyllium fiber. In some embodiments, the fiber blends contain a combination of texturizing fibers, such as pea fiber, potato fiber, and the like. In some embodiments, the fiber blends contain digestion-resistant dextrin. In some embodiments, the fiber compositions also contain one or more sweeteners, such as sugars, high-intensity sweeteners, or a combination thereof, for example, in dry form or as a symp. In some aspects, the disclosure provides the use of such fiber blends in various comestible products, such as food products, beverage products, food supplements, or animal feed products. In some embodiments, such comestible products are meat analogue products or dairy analogue products. In some embodiments, the fiber blends contain combinations of soluble and insoluble fibers in certain relative amounts for health and nutrition benefits.

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.

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.

The present invention relates to a filling composition comprising an aqueous phase comprising water, glycerin and sorbitol, and a fat phase, wherein the filling composition further comprises of a dairy powder, whey and starch. The invention also relates to a method for preparing such a filling composition. When used in a baked product, this filling composition has little or no oil leaking, little or no spread and low water activity. At the same time, the filling composition is creamy and flavorful.

The invention relates to the field of food technology and fermented dairy products, more specifically to a novel drinking yoghurt and processes for the manufacture thereof. Provided is method to provide a stabilized drinking yoghurt, comprising the steps of: (i) dissolving powdered amylomaltase-treated starch (ATS) in an aqueous composition under heating to a temperature in the range of 50-80? C., preferably 60-75? C., more preferably 70-75? C., followed by (ii) cooling the solution to a temperature in the range of 2-45? C., preferably 4-25? C., more preferably 4-8? C., to induce the formation of an ATS gel; (iii) preparing a gelled yoghurt by either adding the ATS gel as pre-gel to a conventionally prepared fermented yoghurt, or wherein the ATS gel is formed in situ during the fermentation of a milk product into a yoghurt; and (iv) shearing the gelled yoghurt.

The invention relates to the field of food technology and fermented dairy products, more specifically to a novel drinking yoghurt and processes for the manufacture thereof. Provided is method to provide a stabilized drinking yoghurt, comprising the steps of: (i) dissolving powdered amylomaltase-treated starch (ATS) in an aqueous composition under heating to a temperature in the range of 50-80? C., preferably 60-75? C., more preferably 70-75? C., followed by (ii) cooling the solution to a temperature in the range of 2-45? C., preferably 4-25? C., more preferably 4-8? C., to induce the formation of an ATS gel; (iii) preparing a gelled yoghurt by either adding the ATS gel as pre-gel to a conventionally prepared fermented yoghurt, or wherein the ATS gel is formed in situ during the fermentation of a milk product into a yoghurt; and (iv) shearing the gelled yoghurt.

The present invention pertains to a stabiliser-free cottage cheese, a thickened, stabiliser-free dairy liquid which is suitable as dressing for the cottage cheese and to methods of producing both the thickened dairy liquid and the cottage cheese.

The present invention pertains to a stabiliser-free cottage cheese, a thickened, stabiliser-free dairy liquid which is suitable as dressing for the cottage cheese and to methods of producing both the thickened dairy liquid and the cottage cheese.

The present invention concerns the use of a composition containing a hydroxypropyl phosphate crosslinked starch and a white dextrin for producing fresh milk products with a reduced fat content, characterised in that: the hydroxypropyl phosphate crosslinked starch has a degree of substitution of between 0.09 and 0.2, preferably between 0.09 and 0.14, and more preferably between 0.10 and 0.11, and the white dextrin has a DE of less than 5, preferably less than 3, more preferably less than 2, a viscosity at 40% dry matter of between 3600 and 6000 mPa.Math.s, and a solubles content of less than 30%.