The present invention relates to the preparation of granules and popped granules comprising functional substances, or active substances, and a carbohydrate carrier material, or matrix material, to the use of such granules, and the granules thus obtained. In the inventive preparation, a water-soluble dietary fiber is mixed with the functional substance in the presence of water or other aqueous solution, dried, and, after drying, converted in granules. The granules with improved properties thus obtained can be popped, providing popped granules with improved properties.

A method for making a Teff Pie including the steps of forming a piecrust dough; forming a pre-injera mixture; fermenting the pre-injera mixture to form injera dough; separating the injera dough from reserve water; refrigerating the injera dough; re-mixing the injera dough with a starter and the reserve water to form an injera mixture; cooking the injera mixture to form injera; forming a lower layer and an upper layer of piecrust dough, placing the lower layer of piecrust dough in a baking pan; placing a lower layer of injera on top of the lower layer of piecrust dough; placing a sauce on top of the injera; placing an tipper layer of injera on top of the sauce; placing an upper layer of piecrust dough on top of the upper layer of injera and baking the Teff Pie.

A baking mix is provided that is free of common food allergens. The baking mix includes a modified starch, a native starch, a gluten-free flour, a hydrocolloid, a hydrogenated oil, a sugar, and a salt. Methods of manufacturing a baking mix are further provided and comprise the step of combining an amount of a modified starch, an amount of a native starch, an amount of a gluten-free flour, an amount of a hydrocolloid, an amount of a sugar, and an amount of a sea salt to form a raw material mixture. An amount heated hydrogenated oil is then added to the raw material mixture, and the raw material mixture is turbolized for a predetermined amount of time to thereby form the baking mix.

The present invention provides a method of producing a baked product having reduced crumb elasticity, said method comprising adding a raw starch degrading alpha-amylase, a lipase and a phospholipase to dough ingredients comprising flour, water, and yeast and mixing to prepare a dough; leavening the dough; and baking the dough to obtain the baked product.

Disclosed are whey protein-enriched cookie dough and cookie products. Also disclosed is a method for making whey protein-enriched cookie doughs and cookies.

A composition containing a starch at a content of equal to or higher than 75% by mass, wherein the composition contains a low molecular weight starch as the starch at a content of equal to or higher than 3% by mass and equal to or lower than 45% by mass, the low molecular weight starch being obtainable from a starch containing amylose at a content of equal to or higher than 5% by mass as a raw material, wherein a peak molecular weight of the low molecular weight starch is equal to or higher than 310.sup.3 and equal to or lower than 510.sup.4, wherein a degree of swelling in cold water of the composition at 25 degrees C. is equal to or higher than 7 and equal to or lower than 20, and wherein a content of an oversieve fraction of a granulated material in the composition on 0.5 mm mesh is equal to or lower than 50% by mass.

A composition containing a starch at a content of equal to or higher than 75% by mass, wherein the composition contains a low molecular weight starch as the starch at a content of equal to or higher than 3% by mass and equal to or lower than 45% by mass, the low molecular weight starch being obtainable from a starch containing amylose at a content of equal to or higher than 5% by mass as a raw material, wherein a peak molecular weight of the low molecular weight starch is equal to or higher than 310.sup.3 and equal to or lower than 510.sup.4, wherein a degree of swelling in cold water of the composition at 25 degrees C. is equal to or higher than 7 and equal to or lower than 20, and wherein a content of an oversieve fraction of a granulated material in the composition on 0.5 mm mesh is equal to or lower than 50% by mass.

The present invention relates to a method of producing frozen dough for bread containing a filling and a method of producing cream-filled bread by employing the frozen dough. More particularly, the present invention relates to a method of producing cream-filled bread, which can produce soft textured bread even by employing frozen/refrigerated dough, and can maintain soft bread texture even after a long period of time.

There is provided an ambient-stable, packaged snack food product and methods of forming it by extrusion. The snack has a baked, porous body having a primary component including one or more of potato, legumes, pulses and cereals. The body of the snack includes from 40 to 85 wt. % of the primary component; optionally from 1.0 to 25 wt. % dairy powder; optionally from 5 to 18 wt. % of a sweetener, such as sugar; and from 5 to 25 wt. % oil. The body has a porosity of between 45 and 70%. It has a moisture content in the range 1-2 wt. %. In addition it has a viscosity, as tested, of less than about 200 cp, indicating a high proportion of cooked starch. It has a breaking point (for texture) in the range 10,000 to about 26,000 grams.

A composition useful for making bread of high quality comprises a) a gluten-free flour, b) a hydroxypropyl methylcellulose having a methoxyl content of from 19 to 24 percent and a hydroxypropoxyl content of from 4 to 12 percent, each being based on the total weight of the hydroxypropyl methylcellulose, and c) a hydroxypropyl methylcellulose having a methoxyl content of from 27 to 30 percent and a hydroxypropoxyl content of from 4 to 12 percent, each being based on the total weight the hydroxypropyl methylcellulose, wherein the composition comprises from 10 to 90 weight percent of the hydroxypropyl methylcellulose b) and from 90 to 10 weight percent of the hydroxypropyl methylcellulose c), based on the total weight of b) and c).