The invention relates to a method of manufacturing a frozen confection comprising providing a frozen confection to be coated, providing a liquid coating composition which comprises less than 25% of saturated fatty acids and which solidifies in a two-step crystallization at a temperature of −15° C., at least partly coating the frozen confection, letting the coating composition perform a first crystallization event, and letting the at least partly coated frozen confection perform a second crystallization event. The invention also relates to a at least partly coated frozen confection obtained by this method of manufacturing.

The present invention relates generally to the field of aerated fat-based confectionery material. One aspect of the invention provides an aerated fat-based confectionery material having a continuous lipid phase and a porosity of between 1 and 80%, wherein, at a temperature at which the lipid phase has a solid lipid content between 0.1 and 80, the fat-based confectionery material comprises gas bubbles having at least 50% of their surface occupied by crystals, the crystals comprising a glyceride selected from the group consisting of monoglycerides, diglycerides, triglycerides, esters of monoglycerides, esters of diglycerides and combinations of these. Further aspects of the invention are a confectionery product comprising an aerated fat-based confectionery material and a process for forming an aerated fat-based confectionery material.

Disclosed is a process for manufacturing a premix for a frozen confection, the process comprising the steps of: (i) forming an oil-in-water emulsion comprising fat in an amount of at least 45% by weight of the emulsion; (ii) providing an adjunct composition comprising saccharides, non-saccharide sweetener, protein or a combination thereof; (iii) providing an aqueous liquid; and (iv) combining the emulsion, adjunct composition and aqueous liquid.

A method for generating a non-dairy base mixture includes: mixing an amount of salt and an amount of calcium into a volume of water to generate a first mixture; mixing an amount of starches, an amount of plant-extracted proteins, and an amount of stabilizing agents into the first mixture to form a second mixture, the amount of plant-extracted proteins defining a protein ratio corresponding to a target functionality and a target flavor profile; during a blending period, regulating temperature of the second mixture within a first temperature range and blending a volume of oil into the second mixture to form an emulsion; pasteurizing the emulsion at temperatures within a second temperature range and for a target duration; and homogenizing the emulsion at temperatures within a third temperature range to form the non-dairy base mixture configured to form a consumable, non-dairy product exhibiting the target functionality and the target flavor profile.

A method of providing improved mouthfeel in consumables having a fat content of about 20% or less is provided. The method includes the step of adding to a consumable composition base from about 0.02 parts per billion to about 25 parts per million based on the total weight of the consumable composition of an Amadori compound, without any subsequent heating. The Amadori compound is a reaction product of glucose with proline.

A process for the preparation of a liquid or semi-liquid bioactive dairy composition containing 20-90% retained bioactive IgG, for use as an ingredient in a ready-to-eat (RTE) or ready-to-drink (RTD) food product, includes the steps of a) combining a bioactive powder containing a colostrum powder and/or milk powder containing whey proteins, and immunoglobulin G (IgG), wherein the ratio of whey protein: IgG in the bioactive powder is between 1.74:1 and 3.05:1; water and a food grade acid to form a bioactive dairy composition with a pH of 2.5-4.0, and b) heat treating the bioactive dairy composition to between 67-145° C. at ambient pressure.

The invention relates to a sugar-free ice cream composition for making ice cream that contains at least one liquid, the liquid being water and the ice cream composition being present in a solid, frozen, not-shapeable state at a temperature of −10° C., preferably −14° C., more preferred −18° C. The ice cream composition is lactose free and contains at least one first proteinogenic amino acid.

A low osmolality oral rehydration slush composition is provided. The oral rehydration slush composition includes: water; a source of carbohydrate; a source of electrolytes; and a source of citrate. The oral rehydration slush composition has an osmolality of 70 mOsm/kg H.sub.2O to 350 mOsm/kg H2O. The oral rehydration slush composition can be used to treat individuals suffering from dehydration.

A low osmolality oral rehydration slush composition is provided. The oral rehydration slush composition includes: water; a source of carbohydrate; a source of electrolytes; and a source of citrate. The oral rehydration slush composition has an osmolality of 70 mOsm/kg H.sub.2O to 350 mOsm/kg H2O. The oral rehydration slush composition can be used to treat individuals suffering from dehydration.

Emulsions and concentrates are provided. The concentrates include oat oil, at least one polyol and/or native or modified carbohydrate, and at least one benefit agent. The oat oil includes 8 wt % or more of ceramides and glycolipids.