The invention relates to a milk-based formulation with a reduced carbohydrate content, having a ratio of carbohydrates to protein of at most 1.1, a protein content of at least 5.4% on dry matter basis, and a ratio of ash to protein is substantially similar to that of a milk raw material used as a starting material, and a method for the preparation thereof. The milk-based formulation can be used in the preparation of a recombined milk product with a reduced lactose content, having a full taste of normal milk without any deficiencies in its organoleptic properties.

The invention relates to a milk-based formulation with a reduced carbohydrate content, having a ratio of carbohydrates to protein of at most 1.1, a protein content of at least 5.4% on dry matter basis, and a ratio of ash to protein is substantially similar to that of a milk raw material used as a starting material, and a method for the preparation thereof. The milk-based formulation can be used in the preparation of a recombined milk product with a reduced lactose content, having a full taste of normal milk without any deficiencies in its organoleptic properties.

Various methods are provided for providing a solid HMO product, said methods including drum-drying, belt drying, preferably vacuum bed drying, or granulation. Solid HMO products are obtained via said methods, as well as solid HMO products per se. The methods can provide solid HMO products which are different to those achieved via other methods.

Various methods are provided for providing a solid HMO product, said methods including drum-drying, belt drying, preferably vacuum bed drying, or granulation. Solid HMO products are obtained via said methods, as well as solid HMO products per se. The methods can provide solid HMO products which are different to those achieved via other methods.

A non-micellar mineral-protein complex including an exogenously added mineral and a protein, where the mineral-protein complex is soluble in a solution at a physiological pH between 6.6 to 6.9 and the complex includes exogenous phosphorus.

A non-micellar mineral-protein complex including an exogenously added mineral and a protein, where the mineral-protein complex is soluble in a solution at a physiological pH between 6.6 to 6.9 and the complex includes exogenous phosphorus.

The invention relates to a drink includes angiogenin and/or angiogenin hydrolysate in an amount of more than 0.8 mg/100 ml and not more than 150 mg/100 ml, and lactoperoxidase and/or lactoperoxidase hydrolysate in the mass ratio to the angiogenin and/or angiogenin hydrolysate of 0.3 to 23.

The present invention relates to a method for separating at least one soluble protein fraction from an aggregated casein-containing material, the method comprises the steps of: (i) providing the aggregated casein-containing material; (ii) Contacting the aggregated casein-containing material with a chromatographic support allowing one or more soluble protein(s) present in the aggregated casein-containing material to be retained by the chromatographic support; (iii) Obtaining a permeate fraction from the chromatographic support comprising aggregated casein; (iv) Optionally washing the chromatographic support; (v) Subjecting the chromatographic support to at least one elution buffer obtaining at least one soluble protein fraction from the chromatographic support; and wherein the chromatographic support comprises one or more mixed-mode ligands capable of binding the soluble proteins from the aggregated casein-containing material.

The invention relates to a drink includes angiogenin and/or angiogenin hydrolysate in an amount of more than 0.8 mg/1.00 ml and not more than 150 mg/100 ml, and cystatin and/or cystatin hydrolysate in the mass ratio to the angiogenin and/or angiogenin hydrolysate of 0.006 to 1.7.

Casein compositions for increasing the rate of gastric emptying following ingestion of the composition, increasing the digestibility of a protein composition, or increasing the rate of delivery of amino acids to the blood, or for increasing the blood serum concentration of free leucine in a subject, preferably to substantially the same level as whey protein, the casein being about 10 to about 100% calcium depleted, having a degree of hydrolysis less than about 1% and having an unmodified phosphorylation pattern.