Low cariogenic and low-laxation chewy confections comprising a non-cariogenic sweetener comprising erythritol and a doctoring agent comprising at least one of sucromalt, linear inulin, branched inulin, brown rice syrup, indigestible dextrin, polydextrose, isomaltooligosaccharide, and soluble corn fiber are provided. Methods for preparing low cariogenic and low-laxation chewy confections are also provided.

Low cariogenic and low-laxation chewy confections comprising a non-cariogenic sweetener comprising erythritol and a doctoring agent comprising at least one of sucromalt, linear inulin, branched inulin, brown rice syrup, indigestible dextrin, polydextrose, isomaltooligosaccharide, and soluble corn fiber are provided. Methods for preparing low cariogenic and low-laxation chewy confections are also provided.

Disclosed herein is a method for producing modified gum arabic, the method comprising: providing gum arabic; heating said gum arabic, resulting in heat-treated gum arabic; dissolving said heat-treated gum arabic in a solution; optionally, filtering said solution containing said dissolved gum arabic; and subjecting said solution containing said dissolved gum arabic to spray-drying. Further disclosed herein is a gum arabic from Acacia Senegal having (i) a weight average molecular weight (M.sub.w) of ≥3.8.Math.10.sup.6 Da, and/or (ii) a RMS-radius of gyration (R.sub.g) of ≥140 nm.

Disclosed herein is a method for producing modified gum arabic, the method comprising: providing gum arabic; heating said gum arabic, resulting in heat-treated gum arabic; dissolving said heat-treated gum arabic in a solution; optionally, filtering said solution containing said dissolved gum arabic; and subjecting said solution containing said dissolved gum arabic to spray-drying. Further disclosed herein is a gum arabic from Acacia Senegal having (i) a weight average molecular weight (M.sub.w) of ≥3.8.Math.10.sup.6 Da, and/or (ii) a RMS-radius of gyration (R.sub.g) of ≥140 nm.

A method for forming encapsulated sweetener granules (ESGs) may include heating a first mixture to form a molten mixture, the first mixture includes one or more polyols and one or more hydrocolloids; cooling the molten mixture to a first temperature to form a cooled molten mixture; adding one or more high-intensity sweeteners to the cooled molten mixture to form a second mixture; cooling the second mixture to a second temperature to form one or more sheets, the second temperature being different from the first temperature; and fragmenting the one or more sheets to form a plurality of encapsulated sweetener granules. The first temperature may be between about 120° C. and about 200° C. The second temperature may be below a glass transition temperature (T.sub.g) of the one or more polyols and the one or more hydrocolloids. For example, the second temperature may be between about 65° C. and about 200° C.

A method for forming encapsulated sweetener granules (ESGs) may include heating a first mixture to form a molten mixture, the first mixture includes one or more polyols and one or more hydrocolloids; cooling the molten mixture to a first temperature to form a cooled molten mixture; adding one or more high-intensity sweeteners to the cooled molten mixture to form a second mixture; cooling the second mixture to a second temperature to form one or more sheets, the second temperature being different from the first temperature; and fragmenting the one or more sheets to form a plurality of encapsulated sweetener granules. The first temperature may be between about 120° C. and about 200° C. The second temperature may be below a glass transition temperature (T.sub.g) of the one or more polyols and the one or more hydrocolloids. For example, the second temperature may be between about 65° C. and about 200° C.

The invention includes a composition when used for the subsequent preparation of an egg white foam, characterised in that the composition includes an amount of egg white material and at least one thickener. The amount of thickener(s) is at least about 2.0% w/w in the composition and the composition has been heat treated at or above about 40° C. prior to preparing the egg white foam. The invention also encompasses method of use, novel food products, cooked or uncooked, and methods of manufacture.

The invention includes a composition when used for the subsequent preparation of an egg white foam, characterised in that the composition includes an amount of egg white material and at least one thickener. The amount of thickener(s) is at least about 2.0% w/w in the composition and the composition has been heat treated at or above about 40° C. prior to preparing the egg white foam. The invention also encompasses method of use, novel food products, cooked or uncooked, and methods of manufacture.

The present invention concerns a composition comprising dietary fiber for use in the dietary management of methylmalonic acidemia (MMA) and/or propionic acidemia (PA), and/or for use in treating and/or reducing MMA and/or PA, and/or treating, reducing and/or preventing symptoms associated therewith.

The present invention concerns a composition comprising dietary fiber for use in the dietary management of methylmalonic acidemia (MMA) and/or propionic acidemia (PA), and/or for use in treating and/or reducing MMA and/or PA, and/or treating, reducing and/or preventing symptoms associated therewith.