A method of producing sialyloligosaccharides a sialyloligosaccharides-containing source that also contains carbohydrates and minerals. The process includes subjecting the source to a temperature of from about 67 C. and (i) filtration with a heat-resistant filter at a temperature of about 35 to about 95 C. to produce a first retentate and first permeate, or (ii) centrifugal separation to produce a light phase and a heavy phase and filtration of the light phase at a temperature of about 50 to about 70 C. to produce a first retentate and first permeate, (b) nanofiltration of the first permeate, or nanofiltration and diafiltration of the first permeate, to produce a second retentate and second permeate, and (c) concentration of the second retentate, to produce a sialyloligosaccharide-containing extract. Additionally, the invention relates to a sialyloligosaccharide-enriched composition comprising at least 3-sialyllactose and 6-sialyllactose and its use in, for example, nutritional and infant formulas, and for maintaining or improving cognitive function.

Methods are provided for treating high solids concentrated milk products to delay gelation of the concentrated milk products by minimizing the rate at which the viscosity of the concentrates increases during cold storage. By another approach, the methods described herein are effective to substantially reduce the viscosity of the concentrated milk products. The methods described herein advantageously increase the length of time the high solids milk concentrates remain fluid and pumpable during refrigerated shelf-life. The high solids concentrated milk products treated with the methods provided herein include about 33 to about 43 percent total solids. By one approach, the high solids concentrated milk products have a pH of about 4.6 to about 6.7, and include salt at about 0.25 to about 6 percent by weight of the concentrate.

The present invention relates to long shelf life milk and milk-related products having an improved taste and particularly a reduced cooked taste as well as to a method for reducing cooked taste of such long shelf life products.

Embodiments disclosed herein relate to an osmotic milk concentrator having a nutrient fortified draw solution and related methods. The osmotic milk concentrator includes at least one draw material reservoir, at least one human milk reservoir, at least one semi-permeable membrane between the at least one draw material reservoir and the at least one human milk reservoir.

Embodiments disclosed herein relate to an osmotic milk concentrator having a nutrient fortified draw solution and related methods. The osmotic milk concentrator includes at least one draw material reservoir, at least one human milk reservoir, at least one semi-permeable membrane between the at least one draw material reservoir and the at least one human milk reservoir.

The present invention relates to lactose-reduced milk-related products, and particularly such products having a long shelf-life. Additionally, the invention relates to a method of producing such products and a milk processing plant for the implementation of the method.

Claimed is the preparation of an infant formula base product, comprising: (a) microfiltration (ME) of animal skim milk over a membrane having a porosity of 0.10-0.35 micrometer and operating with a volume concentration factor of 1.5-8, resulting in a retentate (MFR) and a permeate (MFP); (b) ultrafiltration (UF) of the MEP originating from step (a) over a membrane having a molecular weight cut-off of at most 25 kDa and operating with a volume concentration factor of 1.5-8, resulting in a retentate (UFR) and a permeate fUEP); (c) combining the MFR from step (a) and the UFR from step (b), to obtain a defined casein/whey ratio. Alternatively, the product of step (a) is used as a protein source. Claimed is also a composition comprising 40-50 g casein, 30-40 g lactose and 5-16 g ash per 100 g dry weight.

The present invention relates to a process for microparticulating of an ideal whey protein in a solution by caviataopm. The present invention relates also to microparticulated ideal whey protein preparation. In addition, the present invention relates to use of the microparticulated ideal whey protein preparation in milk based products and/or dairy products. Further, the present invention relates to a milk based product and/or a dairy product containing a microparticulated whey protein preparation.

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.

A demineralised whey powder is suggested which is obtainable by: (a) Separating raw milk, removing the cream; (b) Subjecting the skimmed milk such obtained to microfiltration or microdiafiltration, obtaining a whey protein-rich permeate P1 and a retentate R1 containing casein and GMP in the process; (c) Subjecting the permeate P1 to column chromatography separation, in which the lactoferrin contained therein remains on the column; (d) Subjecting the permeate, from which lactoferrin had been removed, to dialysis; and (e) Dehydrating the diluate such obtained.