The present invention is directed to an edible coating comprising milled rhodoxanthin having an average particle size D(v,0.5) in the range of from 400 to 650 nm, more preferably in the range of from 500 nm to 600 nm, measured by Laser Diffraction; Malvern Mastersizer 3000, MIE volume distribution. This milled rhodoxanthin is preferably added to the edible coating during its manufacture in the form of a dispersion. The edible coating is preferably used for coating confectionary such as chocolate lentils. The present invention is also directed to precursors of such edible coatings such as sugar syrup and sugar-free alternatives, both comprising such a milled rhodoxanthin.

The present invention is directed to an edible coating comprising milled rhodoxanthin having an average particle size D(v,0.5) in the range of from 400 to 650 nm, more preferably in the range of from 500 nm to 600 nm, measured by Laser Diffraction; Malvern Mastersizer 3000, MIE volume distribution. This milled rhodoxanthin is preferably added to the edible coating during its manufacture in the form of a dispersion. The edible coating is preferably used for coating confectionary such as chocolate lentils. The present invention is also directed to precursors of such edible coatings such as sugar syrup and sugar-free alternatives, both comprising such a milled rhodoxanthin.

The present invention relates to dry particulate encapsulation compositions comprising a water-insoluble matrix comprising at least 70% by weight of proteins, based on the total weight of the matrix and a moisture content of about 5 to 10% by weight, based on the total weight of the matrix and an encapsulate encapsulated in the matrix, wherein the matrix once wetted in a clear colorless aqueous solution or in mineral oil has a lightness value (L*) greater than about 40, a color vividness or Chroma (C*) lower than about 33 and a hue angle between about 70 and 90. The encapsulation compositions of the present invention are useful in encapsulating dyes, medications and vitamins. Fine particulate encapsulation compositions comprising natural dyes can be used in lieu of artificial lakes in confectionery, cosmetics and caplets color coatings.

The present invention relates to dry particulate encapsulation compositions comprising a water-insoluble matrix comprising at least 70% by weight of proteins, based on the total weight of the matrix and a moisture content of about 5 to 10% by weight, based on the total weight of the matrix and an encapsulate encapsulated in the matrix, wherein the matrix once wetted in a clear colorless aqueous solution or in mineral oil has a lightness value (L*) greater than about 40, a color vividness or Chroma (C*) lower than about 33 and a hue angle between about 70 and 90. The encapsulation compositions of the present invention are useful in encapsulating dyes, medications and vitamins. Fine particulate encapsulation compositions comprising natural dyes can be used in lieu of artificial lakes in confectionery, cosmetics and caplets color coatings.

Color indicating chewing gum compositions comprising one or more color compounds are provided. The compositions demonstrate a visual color or shade change from start of chewing to the end of chewing and provide oral health benefits. Methods of producing a color changing chewing gum are also provided.

An anthocyanin-based coloring agent having a lower max and thus a reduction in blueness and an increase in yellowness, with increased chroma, hue and redness is formed by combining the aqueous-based anthocyanin coloring agent with an aqueous sorghum extract. The ratio of anthocyanin to sorghum extract in terms of color unit can be from 35:1 to 1:5. This can be used in a wide variety of edible products including foods, nutraceuticals and pharmaceutical products and formulations, wherever an aqueous-based coloring agent is preferred.

An anthocyanin-based coloring agent having a lower max and thus a reduction in blueness and an increase in yellowness, with increased chroma, hue and redness is formed by combining the aqueous-based anthocyanin coloring agent with an aqueous sorghum extract. The ratio of anthocyanin to sorghum extract in terms of color unit can be from 35:1 to 1:5. This can be used in a wide variety of edible products including foods, nutraceuticals and pharmaceutical products and formulations, wherever an aqueous-based coloring agent is preferred.

Composition having a blue color including a buffer, an anthocyanin, and a divalent ion source. The composition may comprise an anthocyanin and a divalent ion source, wherein the average variation of E*.sub.ab of the composition is less than 30% of the average variation of E*.sub.ab of a control composition after exposure of the composition and the control composition to a 400 to 765 W/m.sup.2 light source for a period of time. The composition may comprise an anthocyanin and a divalent ion source, wherein the composition exhibits a less than 20% change in the area beneath the reflectance colorimeter spectral curve of the composition from 430 nm to 530 nm measured over a period of time. In another aspect, a method of stabilizing a blue colorant is provided. The method may comprise combining a buffer, an anthocyanin, and a divalent ion source.

Composition having a blue color including a buffer, an anthocyanin, and a divalent ion source. The composition may comprise an anthocyanin and a divalent ion source, wherein the average variation of E*.sub.ab of the composition is less than 30% of the average variation of E*.sub.ab of a control composition after exposure of the composition and the control composition to a 400 to 765 W/m.sup.2 light source for a period of time. The composition may comprise an anthocyanin and a divalent ion source, wherein the composition exhibits a less than 20% change in the area beneath the reflectance colorimeter spectral curve of the composition from 430 nm to 530 nm measured over a period of time. In another aspect, a method of stabilizing a blue colorant is provided. The method may comprise combining a buffer, an anthocyanin, and a divalent ion source.

The present invention refers to a method and an equipment for the extraction of compounds from grapes by means of ultrasound in vinification processes generated through a sonoplate coupled to the walls of the pipe/duct through which the crushed grapes flow. During this extraction the transfer of phenols responsible for color from the solid portion (skin) to the liquid portion after crushing the grapes takes place as a consequence of the phenomenon known as cavitation, which allows the breaking of the skin cells and makes the phenolic compounds responsible for the color available to the liquid medium to be integrated in said liquid medium enhancing wine color.