Beverage products are provided, e.g., a ready to drink cola beverage or a cola beverage concentrate or syrup, including water or carbonated water, acidulant comprising at least one acid, rebaudioside D present in a sweetening amount, and flavoring comprising cola flavoring. Rebaudioside D may be the only sweetener, or alternatively the beverage product further contains one or more additional sweeteners, for example rebaudioside A and/or other high intensity sweetener(s). Rebaudioside D optionally provides at least 10% of the total sweetening of the beverage product according to certain embodiments. Also, a natural carbonated cola beverage product and a beverage product are each provided containing a sweetening amount of rebaudioside D. The rebaudioside D ingredient used in certain methods of making the beverage products disclosed here optionally has a purity, i.e., a rebaudioside D concentration, of 93% or greater, such as 95% or greater, by weight.

Beverage products are provided, e.g., a ready to drink cola beverage or a cola beverage concentrate or syrup, including water or carbonated water, acidulant comprising at least one acid, rebaudioside D present in a sweetening amount, and flavoring comprising cola flavoring. Rebaudioside D may be the only sweetener, or alternatively the beverage product further contains one or more additional sweeteners, for example rebaudioside A and/or other high intensity sweetener(s). Rebaudioside D optionally provides at least 10% of the total sweetening of the beverage product according to certain embodiments. Also, a natural carbonated cola beverage product and a beverage product are each provided containing a sweetening amount of rebaudioside D. The rebaudioside D ingredient used in certain methods of making the beverage products disclosed here optionally has a purity, i.e., a rebaudioside D concentration, of 93% or greater, such as 95% or greater, by weight.

Disclosed is a method for preparing a multilayer confectionary product including a paste confectionery center, surrounded by an intermediate layer of chewy candy material, surrounded in turn by a layer of amorphous candy material, to the multilayer confectionery product obtained by the process and to an apparatus for producing the multilayer confectionary product. The multilayer confectionary product can be further coated with a hard coating.

Disclosed is a method for preparing a multilayer confectionary product including a paste confectionery center, surrounded by an intermediate layer of chewy candy material, surrounded in turn by a layer of amorphous candy material, to the multilayer confectionery product obtained by the process and to an apparatus for producing the multilayer confectionary product. The multilayer confectionary product can be further coated with a hard coating.

The present disclosure provides products and methods that provide for the stability of functional amino acids in food matrices. In a general embodiment, the products include either a source of beta-glucans or a source of protein low in reducing sugars, in combination with a functional amino acid in a binder having low amounts of, or being substantially free of, reducing sugars. Methods for improving the stability of functional amino acids in food matrices are also provided. The products and methods of the present disclosure provide several advantages including, for example, the reduction or avoidance of degradation and browning of the products during processing and storage.

The present disclosure provides products and methods that provide for the stability of functional amino acids in food matrices. In a general embodiment, the products include either a source of beta-glucans or a source of protein low in reducing sugars, in combination with a functional amino acid in a binder having low amounts of, or being substantially free of, reducing sugars. Methods for improving the stability of functional amino acids in food matrices are also provided. The products and methods of the present disclosure provide several advantages including, for example, the reduction or avoidance of degradation and browning of the products during processing and storage.

A dry consumable preparation and related methods are disclosed. The preparation has a bulking agent, and a cannabinoid and/or a cannabinoid extract containing one or more cannabinoids plated onto the bulking agent. The preparation also has an effervescence agent. The effervescence agent has sodium bicarbonate, potassium bicarbonate, and at least one acid, the at least one acid having at least one of citric acid, tartaric acid, or malic acid. The effervescence agent further has a ratio of sodium bicarbonate to potassium bicarbonate to the acid(s) that creates a chemical pH buffering system at a targeted pH range when the dry consumable preparation is added to a targeted amount of water.

A dry consumable preparation and related methods are disclosed. The preparation has a bulking agent, and a cannabinoid and/or a cannabinoid extract containing one or more cannabinoids plated onto the bulking agent. The preparation also has an effervescence agent. The effervescence agent has sodium bicarbonate, potassium bicarbonate, and at least one acid, the at least one acid having at least one of citric acid, tartaric acid, or malic acid. The effervescence agent further has a ratio of sodium bicarbonate to potassium bicarbonate to the acid(s) that creates a chemical pH buffering system at a targeted pH range when the dry consumable preparation is added to a targeted amount of water.

The invention relates to an oil-in-water (O/W) emulsions that can be aerated to produce foamed emulsions. The O/W emulsions of the present invention consist of: 20-45 wt. % water; 4-40 wt. % oil; 3-12 wt. % of cyclodextrin selected from alpha-cyclodextrin, beta-cyclodextrin and combinations thereof; 20-60 wt. % of saccharides selected from monosaccharides, disaccharides, non-cyclic oligosaccharides, sugar alcohols and combinations thereof; 0-30 wt. % of other edible ingredients; wherein the emulsion contains at least 80% of the saccharides by weight of water. The O/W emulsions of the present invention are capable of forming foamed emulsions with high firmness and excellent shape retaining properties. These foamed emulsions further offer the advantage that they exhibit excellent stability.

The invention relates to an oil-in-water (O/W) emulsions that can be aerated to produce foamed emulsions. The O/W emulsions of the present invention consist of: 20-45 wt. % water; 4-40 wt. % oil; 3-12 wt. % of cyclodextrin selected from alpha-cyclodextrin, beta-cyclodextrin and combinations thereof; 20-60 wt. % of saccharides selected from monosaccharides, disaccharides, non-cyclic oligosaccharides, sugar alcohols and combinations thereof; 0-30 wt. % of other edible ingredients; wherein the emulsion contains at least 80% of the saccharides by weight of water. The O/W emulsions of the present invention are capable of forming foamed emulsions with high firmness and excellent shape retaining properties. These foamed emulsions further offer the advantage that they exhibit excellent stability.