The invention pertains to a process for simultaneous producing an infant formula product and an acidic dairy product from defatted animal milk, comprising (a) processing the milk into a casein stream, a whey protein stream and a lactose stream, by: (i) subjecting the defatted animal milk to a filtration step over a microfiltration membrane capable of retaining bacteria and permeating milk proteins, to provide a debacterialized milk as permeate; (ii) subjecting the permeate originating from step (i) to a filtration step over a microfiltration membrane capable of retaining casein and permeating whey proteins, to provide a casein stream as retentate and a permeate comprising whey protein; (iii) fractionating the permeate originating from step (ii) into a whey protein stream and a lactose stream; (b) combining part of the casein stream, at least part of the whey protein stream originating from step (a) and a lactose source to obtain a recombined stream, wherein the lactose source comprises acid whey; (c) using the recombined stream originating from step (b) in the manufacture of the infant formula product; (d) using part of the casein stream originating from step (a) in the manufacture of the acidic dairy product. The invention further concerns the infant formula product obtainable by step (c) of the process according to the invention, and to the acidic dairy product obtainable by step (d) of the process according to the invention.

The invention pertains to a process for simultaneous producing an infant formula product and a dairy product from defatted animal milk, comprising (a) processing the milk into a casein stream, a whey protein stream and a lactose stream by a combination of microfiltration and ultrafiltration, wherein the casein stream originates from the microfiltration as retentate, the whey protein stream originates from the ultrafiltration as retentate and the lactose stream originates from the ultrafiltration as permeate; (b) combining at least part of the whey protein stream originating from step (a) and a lactose source to obtain are combined stream; (c) using the recombined stream originating from step (b) in the manufacture of the infant formula product; and (d) using at least part of the casein stream originating from step (a) and defatted animal milk in the manufacture of the dairy product. The invention further concerns the infant formula product obtainable by step (c) of the process according to the invention, and to the dairy product obtainable by step (d) of the process according to the invention.

The invention pertains to a process for simultaneous producing an infant formula product and a dairy product from defatted animal milk, comprising (a) processing the milk into a casein stream, a whey protein stream and a lactose stream by a combination of microfiltration and ultrafiltration, wherein the casein stream originates from the microfiltration as retentate, the whey protein stream originates from the ultrafiltration as retentate and the lactose stream originates from the ultrafiltration as permeate; (b) combining at least part of the whey protein stream originating from step (a) and a lactose source to obtain are combined stream; (c) using the recombined stream originating from step (b) in the manufacture of the infant formula product; and (d) using at least part of the casein stream originating from step (a) and defatted animal milk in the manufacture of the dairy product. The invention further concerns the infant formula product obtainable by step (c) of the process according to the invention, and to the dairy product obtainable by step (d) of the process according to the invention.

The invention relates to a method for producing a milk-based product, comprising the steps of: providing a milk raw material; altering a ratio of casein to total protein of the milk raw material to less than about 0.80; subjecting the milk raw material with the altered ratio of casein to total protein from step b) to a heat treatment at the temperature of at least about 150° C. for a period of at most about 0.3 sec; cooling the heat-treated milk raw material from step c) to provide the milk-based product. The method provides milk-based products with long shelf life and good organoleptic properties.

The present disclosure generally provides nutritional compositions that are useful for promoting beneficial bacteria in the gastrointestinal tract of a Cesarean-section (C-section)-delivered infant. The nutritional composition can include a prebiotic composition comprising human milk oligosaccharides (HMO), milk fat globule membrane (MFGM), and galacto-oligosaccharides (GOS) and/or polydextrose (PDX). The present disclosure also provides methods for promoting the growth of beneficial microbiota in the gastrointestinal tract of C-section-delivered infants comprising administering to a C-section-delivered infant the disclosed nutritional composition.

The invention concerns composition comprising 2′-fucosyllactose for use in the treatment of virus induced diarrhea.

A human milk powderization system can include a spray drying machine, a receptacle, and a container. The spray drying machine can be configured to receive liquid human milk through an inlet at a rate of about 2 milliliters per millisecond and to spray dry the human milk at a temperature of about 163 to 167 degrees C. to transform the liquid human milk into a powderized human milk product. The receptacle can be coupled to and configured to receive the powderized human milk product from the spray drying machine. The receptacle can be formed from one or more nonreactive materials, such as crystal. The container can be removably coupled to and configured to receive the powderized human milk product from the receptacle. The container can be configured to transport the powderized human milk product away from the system, and can be formed from one or more nonreactive materials, such as aluminum.

Disclosed are thickener compositions composed of xanthan gum and a chelating agent, such as ascorbic acid. The chelating agent is present in an amount with respect to said xanthan such that, when said thickener composition is used to thicken a food product, at least one mineral selected from the group consisting of iron, zinc, and calcium present in said food product is relatively more bioavailable than the mineral would be in the absence of said chelating agent. The thickener composition finds particular applicability for use with baby formulas and breast milk intended for dysphagic infants. Also disclosed are baby formulas and thickened breast milk formulations, methods for preparing same, and methods for providing nutrition.

Disclosed is a method for the manufacture of a spray-dried powder consisting essentially of 3-fucosyllactose, the spray-dried powder, its use for the manufacture of nutritional compositions, and nutritional compositions containing the spray-dried powder.

The disclosure features human milk fortifier compositions, standardized human milk, and methods of making and using same. In one embodiment, a pasteurized human milk composition includes a human protein constituent of about 35-85 mg/mL; a human fat constituent of about 60-110 mg/mL; and a human carbohydrate constituent of about 60-140 mg/mL.