The present disclosure generally relates to the use of certain compounds, such as anthocyanins, saponins, or combinations thereof, at low concentrations to improve the aqueous solubility of flavonoid compounds. Thus, in certain aspects, the disclosure provides aqueous compositions including flavonoid compounds, such as naringenin or phloretin, and one or more compounds selected rom anthocyanin compounds, saponins, and combinations thereof. In related aspects, the disclosure provides methods and uses of certain compounds, such as anthocyanins, saponins, or combinations thereof, to enhance the aqueous solubility of flavonoid compounds. In related aspects, the disclosure provides methods to maintain the stability of a supersaturated aqueous solution of flavonoid compounds, for example, by increasing the kinetic stability of such supersaturated aqueous solutions. In some further embodiments of the foregoing aspects, the aqueous compositions are used to make flavored articles, such as beverage or dairy products, that contain concentration of surfactants, co-solvents, hydrotropes, or complexing agents below the typical taste-affecting thresholds in humans.

The present disclosure generally relates to various formulations and uses of the compound: N-(1-((4-amino-2,2-dioxo-1H-benzo[c][1,2,6]thiadiazin-5-yl)oxy)-2-methyl-propan-2-yl)isonicotinamide, which is also referred to herein a “TM1” and comestibly acceptable salts thereof. In some aspects, the disclosure provides compositions that include TM1, or a comestibly acceptable salt thereof. In some embodiments, the compositions are ingestible compositions, including, but not limited to, packaged food and beverage products and tabletop sweeteners. In some aspects, the disclosure provides certain compositions that include such flavanone derivatives, such as compositions that include such flavanone derivatives and one or more other sweeteners. In some other aspects, the disclosure provides methods of reducing the caloric content of a sweetened article, such as a sweetened food or beverage product.

The present disclosure generally relates to various formulations and uses of the compound: N-(1-((4-amino-2,2-dioxo-1H-benzo[c][1,2,6]thiadiazin-5-yl)oxy)-2-methyl-propan-2-yl)isonicotinamide, which is also referred to herein a “TM1” and comestibly acceptable salts thereof. In some aspects, the disclosure provides compositions that include TM1, or a comestibly acceptable salt thereof. In some embodiments, the compositions are ingestible compositions, including, but not limited to, packaged food and beverage products and tabletop sweeteners. In some aspects, the disclosure provides certain compositions that include such flavanone derivatives, such as compositions that include such flavanone derivatives and one or more other sweeteners. In some other aspects, the disclosure provides methods of reducing the caloric content of a sweetened article, such as a sweetened food or beverage product.

With a method for heating in particular milk or milk foam, in which the milk or the milk/air mixture is conveyed through a passage opening and hot steam is conveyed through at least one steam line transversely into this passage opening. The passage opening and the at least one inlet opening opening transversely into the steam line, the steam pressure in this and the pressure and the pressure in the passage opening with flowing milk or milk/air mixture are so coordinated that the hot steam at the at least one transverse inlet opening condenses in the passage opening directly on contact with the milk or the milk/air mixture. Consequently the additional energy produced by the phase change from steam to condensate water is transmitted directly as heat to the heat in the milk or the milk/air mixture.

The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

The disclosure relates to methods, systems and compositions for use in the production of milk. More specifically, the disclosure is directed to systems, compositions and methods for in-vitro production of milk using an array of mammary organoids seeded on tertiary-branched, resilient duct scaffolding.

Disclosed are dairy products fortified with dairy minerals and methods of making the dairy products. The fortified dairy products exhibit enhanced fresh dairy flavor notes. In one aspect, the fortified dairy product is a concentrated dairy liquid. In another aspect, the fortified dairy product is a cheese product, such as cream cheese, processed cheese, or cultured cheese.

The invention describes products, uses thereof, compositions thereof, and methods to prepare products formed from Maillard reaction products from a sugar donor and/or sweet tea extracts, Stevia extracts, swingle (mogroside) extracts, one or more sweet tea extract components, one or more steviol glycosides, one or more mogrosides, one or more glycosylated sweet tea glycosides, one or more glycosylated steviol glycosides or one or more glycosylated mogrosides and an amine donor/reactant.

Disclosed is a method for making yogurt products of viscosities from about 50 centipoise to about 200,000 centipoise, the yogurt products having a total protein content of at least about 12 percent, the whey protein in the product being primarily in the undenatured state (at least about 75% undenatured). Also disclosed are products made by the method, such as yogurt drinks comprising at least about 12 percent total protein, wherein at least about 75% of the whey protein is in the undenatured state.

Beverage compositions and methods of preparing the same are provided herein. The beverage compositions can include calcium supplied from a calcium carbonate source including aragonite and a liquid component, such as water, a juice, a milk, and a combination thereof. Calcium components including aragonite particles and at least one additive agent as well as sweetener components including aragonite particles and at least one sweetener are also provided herein.