An encapsulated flavor, comprising a core material, flavor material and a coating material, the core material comprising a finely-divided native starch, xanthan gum and konjac, the combined weight proportion of the xanthan gum and konjac present in the encapsulated flavour being from about 4% to about 16%, and the relative weight proportions of xanthan gum to konjac being from about 20:80 to about 80:20. The encapsulated flavors may be completely gelatin-free, while retaining the desirable qualities of gelatin.

An encapsulated flavor, comprising a core material, flavor material and a coating material, the core material comprising a finely-divided native starch, xanthan gum and konjac, the combined weight proportion of the xanthan gum and konjac present in the encapsulated flavour being from about 4% to about 16%, and the relative weight proportions of xanthan gum to konjac being from about 20:80 to about 80:20. The encapsulated flavors may be completely gelatin-free, while retaining the desirable qualities of gelatin.

The present disclosure provides low-water oral care compositions comprising a whitening agent and a flavor system encapsulating one or more flavor ingredients, wherein the flavor system provides improved taste to the consumer, masking the negative taste attributes of the whitening or oxidizing agents, and is also believed to be able to improve the flavor stability over the life of the product, and methods of using the same.

The present disclosure provides low-water oral care compositions comprising a whitening agent and a flavor system encapsulating one or more flavor ingredients, wherein the flavor system provides improved taste to the consumer, masking the negative taste attributes of the whitening or oxidizing agents, and is also believed to be able to improve the flavor stability over the life of the product, and methods of using the same.

An improved method for manufacture of chewing gums containing active ingredient(s) that preserves the efficacy of the active ingredient(s) by avoiding exposure to high heat and extreme cold during milling that can otherwise degrade the active's efficacy. A chewing gum base is used, along with one or more therapcutically-active ingredients, one or more sweeteners (alcohol-based and/or natural), and one or more flavorings and optional flavor modifiers. The method generally comprises heating the gum base in ovens to melt the gum base. Separately, the active ingredient(s), sweeteners and flavorings are combined in a mixer. The melted gum base is added to the mixer and cools to produce a particulate mixture. As mixing continues the mass cools to room temperature and forms granular pieces. The granular pieces are ground into a powder at room temperature, mixed at room temperature with tableting excipients, and tableted. Several variations on the foregoing are also described.

An improved method for manufacture of chewing gums containing active ingredient(s) that preserves the efficacy of the active ingredient(s) by avoiding exposure to high heat and extreme cold during milling that can otherwise degrade the active's efficacy. A chewing gum base is used, along with one or more therapcutically-active ingredients, one or more sweeteners (alcohol-based and/or natural), and one or more flavorings and optional flavor modifiers. The method generally comprises heating the gum base in ovens to melt the gum base. Separately, the active ingredient(s), sweeteners and flavorings are combined in a mixer. The melted gum base is added to the mixer and cools to produce a particulate mixture. As mixing continues the mass cools to room temperature and forms granular pieces. The granular pieces are ground into a powder at room temperature, mixed at room temperature with tableting excipients, and tableted. Several variations on the foregoing are also described.

An object of the present invention is to provide a method for producing a saccharide polycondensate which is inexpensive and is applicable to a food or beverage product. Disclosed is a method for producing a saccharide polycondensate, which comprises carrying out a saccharide polycondensation reaction in the presence of activated carbon.

An object of the present invention is to provide a method for producing a saccharide polycondensate which is inexpensive and is applicable to a food or beverage product. Disclosed is a method for producing a saccharide polycondensate, which comprises carrying out a saccharide polycondensation reaction in the presence of activated carbon.

The present invention relates generally to steviol glycosides, as well as compositions comprising such steviol glycosides. The present invention further extends to methods of preparing and purifying such steviol glycosides and methods for enhancing the flavor or sweetness of consumables using these steviol glycosides and compositions. The present invention extends to consumables comprising steviol glycosides, where the such steviol glycosides are present in a concentration at or below their sweetness recognition threshold, and wherein such steviol glycosides enhance the sweetness of the consumable.

The present invention relates generally to steviol glycosides, as well as compositions comprising such steviol glycosides. The present invention further extends to methods of preparing and purifying such steviol glycosides and methods for enhancing the flavor or sweetness of consumables using these steviol glycosides and compositions. The present invention extends to consumables comprising steviol glycosides, where the such steviol glycosides are present in a concentration at or below their sweetness recognition threshold, and wherein such steviol glycosides enhance the sweetness of the consumable.