The invention discloses a method for producing a deodorized goat/sheep milk, which method comprises purifying fresh goat/sheep milk or goat/sheep full cream, wherein the material is subjected to a carbon dioxide treatment during the purification, and the carbon dioxide treatment comprises: introducing carbon dioxide into the material, then refrigerating the material, and removing carbon dioxide. The producing method of the invention is simple, and has a good effect of removing muttony odor of goat/sheep milk. The present invention also discloses a deodorized goat/sheep milk and a deodorized goat/sheep milk product.

The invention discloses a method for producing a deodorized goat/sheep milk, which method comprises purifying fresh goat/sheep milk or goat/sheep full cream, wherein the material is subjected to a carbon dioxide treatment during the purification, and the carbon dioxide treatment comprises: introducing carbon dioxide into the material, then refrigerating the material, and removing carbon dioxide. The producing method of the invention is simple, and has a good effect of removing muttony odor of goat/sheep milk. The present invention also discloses a deodorized goat/sheep milk and a deodorized goat/sheep milk product.

The invention includes an all-natural dairy-based sugar substitute composition including a dairy-derived ingredient, a high-potency sweetening ingredient, and a flavor-balancing ingredient, and optionally including a grain hull ingredient, that can be used to replace sugar in any food, cosmetic, or pharmaceutical product.

A modified milk powder containing 1,5-anhydro-D-glucitol which is an effective component in vivo in an amount of 7.7 to 3,850 μg/g.

The invention relates to a powdered milk product includes angiogenin and/or angiogenin hydrolysate in an amount of 1.4 to 24 mg/15 g, and cystatin and/or cystatin hydrolysate in the mass ratio to the angiogenin and/or angiogenin hydrolysate of 0.03 to 1.3.

The invention relates to a powdered milk product includes angiogenin and/or angiogenin hydrolysate in an amount of 1.4 to 24 mg/15 g, and cystatin and/or cystatin hydrolysate in the mass ratio to the angiogenin and/or angiogenin hydrolysate of 0.03 to 1.3.

The present invention concerns a process for manufacturing an infant formula product comprising lipid globules having a volume-weighted mode diameter of at least 1.0 μm, wherein the process comprises: (a) subjecting an aqueous mixture having a protein component and a carbohydrate component to a heat treatment step; (b) mixing the aqueous mixture with a lipid component to obtain a oil-in-water emulsion having a total solids content in the range of 45-80 wt %; (d) conveying the homogenized emulsion into an extruder, independently adding digestible carbohydrates and optionally dietary fibres to the extruder and extruding the contents of the extruder to obtain an extruded material; (e) preparing an infant formula product from the extruded material, wherein step (e) involves a step wherein the extruded material is subjected to drying, wherein the drying may be selected from flash drying, vacuum drying, belt drying, microwave drying, IR drying and spray-drying, provided that the spray-drying uses an atomization system employing a two-fluid nozzle or a rotary atomization system, to obtain a spray-dried composition comprising lipid globules having a volume-weighted mode diameter of at least 1.0 μm. Alternatively, the process according to the invention does not employ a mixing step (b), but instead a lipid component is independently added during step (d). The invention further concerns Infant formula product obtainable by the process according to the invention and to a modular system suitable for performing the process according to the invention.

The present invention concerns a process for manufacturing an infant formula product comprising: (a) subjecting an aqueous mixture having a protein component and a carbohydrate component to a heat treatment step; (b) mixing the aqueous mixture with a lipid component; (c) subjecting the aqueous mixture comprising the lipid component, the carbohydrate component and the heat-treated protein component to a homogenization and emulsification step to obtain a homogenized oil-in-water emulsion having a total solids content in the range of 45-80 wt %; (d) conveying the homogenized emulsion into an extruder, independently adding digestible carbohydrates and optionally dietary fibres to the extruder and extruding the contents of the extruder wherein a gas is injected into the extruder, to obtain an extruded aerated material (e) preparing an infant formula product from the extruded aerated material. The invention further concerns Infant formula product obtainable by the process according to the invention and to a modular system suitable for performing the process according to the invention.

A low-bacteria milk powder with a WPNI of at least 2 is suggested, obtainable by (a) providing a milk component; (b) optionally, separating the cream from the milk component; (c) subjecting the milk component from which the cream had been optionally separated to microfiltration, obtaining a low-bacteria permeate P1 and a bacteria-contaminated retentate R1; (d) mixing the permeate with a liquid lipid phase and a solid active agent phase; (e) optionally, subjecting the mixture obtained in step (d) to a temperature treatment; and (f) processing the mixture of step (d) or (e) that had optionally been temperature-treated, obtaining a dry powder.

A low-bacteria milk powder with a WPNI of at least 2 is suggested, obtainable by (a) providing a milk component; (b) optionally, separating the cream from the milk component; (c) subjecting the milk component from which the cream had been optionally separated to microfiltration, obtaining a low-bacteria permeate P1 and a bacteria-contaminated retentate R1; (d) mixing the permeate with a liquid lipid phase and a solid active agent phase; (e) optionally, subjecting the mixture obtained in step (d) to a temperature treatment; and (f) processing the mixture of step (d) or (e) that had optionally been temperature-treated, obtaining a dry powder.