Suggested is a foamable dairy composition, containing or consisting of: (a) at least one dairy product, and (b) an additive which is obtained by subjecting a dairy product to filtration, separating the permeate which is optionally subjected to a thermal post-treatment.

The present invention relates to a method for manufacturing a modified whey composition, the method having a liquid preparation step of preparing a raw material whey liquid using a whey composition containing whey protein, and a heating step of subjecting the raw material whey liquid to a heat treatment, wherein the liquid preparation step includes a treatment of adding an alkali to the whey composition, the pH of the raw material whey liquid is from 6.8 to 8.0 and the protein concentration in the liquid is not more than 1.3% by mass, the calcium content of the raw material whey liquid that is subjected to the heat treatment is from 400 to 700 mg/100 g of solids, and the heat treatment is performed under conditions of 80 to 150 C. for a period of 30 minutes to 1 second.

The present invention relates to a method for manufacturing a modified whey composition, the method having a liquid preparation step of preparing a raw material whey liquid using a whey composition containing whey protein, and a heating step of subjecting the raw material whey liquid to a heat treatment, wherein the liquid preparation step includes a treatment of adding an alkali to the whey composition, the pH of the raw material whey liquid is from 6.8 to 8.0 and the protein concentration in the liquid is not more than 1.3% by mass, the calcium content of the raw material whey liquid that is subjected to the heat treatment is from 400 to 700 mg/100 g of solids, and the heat treatment is performed under conditions of 80 to 150 C. for a period of 30 minutes to 1 second.

The present invention relates to whey protein micelles for use in the treatment and/or prevention of a disorder linked to an increase in plasma postprandial insulin and/or plasma postprandial glucagon concentration in a subject. The invention relates also to a non-therapeutic use of whey protein micelles to decrease plasma postprandial insulin and/or glucagon concentration in healthy subjects.

The present invention relates to whey protein micelles for use in the treatment and/or prevention of a disorder linked to an increase in plasma postprandial insulin and/or plasma postprandial glucagon concentration in a subject. The invention relates also to a non-therapeutic use of whey protein micelles to decrease plasma postprandial insulin and/or glucagon concentration in healthy subjects.

Methods of making undenatured pre-acidified whey protein isolates and protein-fortified beverages incorporating such undenatured pre-acidified whey protein isolates are described. Methods include ultrafiltering a liquid whey composition into a liquid whey protein retentate and a liquid whey permeate, and microfiltering the liquid whey protein retentate into a microfiltered whey protein retentate and a microfiltered whey protein permeate. Methods include reducing a pH of the microfiltered whey protein permeate to a pH of less than 3.8, forming a reduced pH whey protein permeate, and ultrafiltering and diafiltrating the reduced pH whey protein permeate into the undenatured pre-acidified whey protein isolate. Methods include optionally nanofiltering the undenatured pre-acidified whey protein isolate.

Methods of making undenatured pre-acidified whey protein isolates and protein-fortified beverages incorporating such undenatured pre-acidified whey protein isolates are described. Methods include ultrafiltering a liquid whey composition into a liquid whey protein retentate and a liquid whey permeate, and microfiltering the liquid whey protein retentate into a microfiltered whey protein retentate and a microfiltered whey protein permeate. Methods include reducing a pH of the microfiltered whey protein permeate to a pH of less than 3.8, forming a reduced pH whey protein permeate, and ultrafiltering and diafiltrating the reduced pH whey protein permeate into the undenatured pre-acidified whey protein isolate. Methods include optionally nanofiltering the undenatured pre-acidified whey protein isolate.

A dairy-based yogurt product having a protein level above 15%, sometimes more than 25%, with a smooth and rich texture and no grittiness. The yogurt product includes a particular selection of dairy proteins and other ingredients to raise the gelation temperature of the dairy proteins and avoid causing gelation or precipitation during pasteurization. Additionally, pasteurization temperatures, times and methods are selected to avoid gelation. Starting dairy proteins generally have relatively higher pH levels and low total acidity (TA) levels to help reduce gelation during pasteurization. Ingredients such as buffering agents and sequestering agents may be utilized to help raise the gelation temperature, as well as higher sugar levels which can control hydration of the proteins.

A dairy-based yogurt product having a protein level above 15%, sometimes more than 25%, with a smooth and rich texture and no grittiness. The yogurt product includes a particular selection of dairy proteins and other ingredients to raise the gelation temperature of the dairy proteins and avoid causing gelation or precipitation during pasteurization. Additionally, pasteurization temperatures, times and methods are selected to avoid gelation. Starting dairy proteins generally have relatively higher pH levels and low total acidity (TA) levels to help reduce gelation during pasteurization. Ingredients such as buffering agents and sequestering agents may be utilized to help raise the gelation temperature, as well as higher sugar levels which can control hydration of the proteins.

A method for preparing a modified whey protein concentrate (WPC) or whey protein isolate (WPI) is described. It involves (a) providing an aqueous WPC or WPI solution having a protein concentration of 15-50% (w/v), at a pH of 4.7-8.5; (b) heat treating the solution to more than 50 DEG C., for a time that allows protein denaturation to occur; the heat treating comprising heating the solution while under conditions of turbulent flow. At the end of the heat treatment, the heat treated material may be promptly transferred to a drier or to be mixed with other ingredients. The heat-treated WPC or WPI is not subjected to a mechanical shear process prior to the transfer other than where liquid is converted into droplets to facilitate drying. The modified WPC is useful in the manufacture of food and drinks where a high protein content is desired without undesirable changes in texture.