A crisp proteinaceous food product provided from ingredients in which egg white proteins constitute the majority of total proteins present is described. Other ingredients include water, expanded starch(es), vegetable flour(s), and at least one source of vegetable protein. The protein can be labeled as being more than 50% (w/w) protein, and at least 50% (w/w) of those denatured proteins can be ovalbumin (or trace their origin to ovalbumin).

A crisp proteinaceous food product provided from ingredients in which egg white proteins constitute the majority of total proteins present is described. Other ingredients include water, expanded starch(es), vegetable flour(s), and at least one source of vegetable protein. The protein can be labeled as being more than 50% (w/w) protein, and at least 50% (w/w) of those denatured proteins can be ovalbumin (or trace their origin to ovalbumin).

A food baking apparatus includes a compressible die and a mechanical stop for controlling a die spacing of the compressible die. The mechanical stop includes a supporting system and a mounting element mounted onto the supporting system. The mounting element includes at least one protrusion having a particular amount of protrusion from the mounting element, which amount of protrusion may be adjustable for any single protrusion. By translation or rotation of the supporting system and/or the mounting element during operation of the apparatus, a protrusion is selected. The protrusions mechanically stop further compression of the dies during an operation of the food baking apparatus. Thus, the selection determines the die spacing applicable for the baking process, based on the amount of protrusion of the selected protrusion.

A food baking apparatus includes a compressible die and a mechanical stop for controlling a die spacing of the compressible die. The mechanical stop includes a supporting system and a mounting element mounted onto the supporting system. The mounting element includes at least one protrusion having a particular amount of protrusion from the mounting element, which amount of protrusion may be adjustable for any single protrusion. By translation or rotation of the supporting system and/or the mounting element during operation of the apparatus, a protrusion is selected. The protrusions mechanically stop further compression of the dies during an operation of the food baking apparatus. Thus, the selection determines the die spacing applicable for the baking process, based on the amount of protrusion of the selected protrusion.

Flour improvers, chlorinated flour replacers comprising the flour improver, methods of preparing the flour improvers and chlorinated flour replacers, and uses thereof (e.g. for improving the textural properties of wheat flour-based high ratio cakes) are provided. The flour improver as disclosed herein comprises between 10% and 97.5% (w/w) of non-wheat flour, wherein the non-wheat flour is one or more non-wheat flours selected from the group consisting of rice flour, oat flour, quinoa flour and buckwheat flour; between 2% and 20% (w/w) of a gel-forming protein in addition to protein present in the non-wheat flour; and between 0.5% and 3% (w/w) of calcium 2+ ions.

Flour improvers, chlorinated flour replacers comprising the flour improver, methods of preparing the flour improvers and chlorinated flour replacers, and uses thereof (e.g. for improving the textural properties of wheat flour-based high ratio cakes) are provided. The flour improver as disclosed herein comprises between 10% and 97.5% (w/w) of non-wheat flour, wherein the non-wheat flour is one or more non-wheat flours selected from the group consisting of rice flour, oat flour, quinoa flour and buckwheat flour; between 2% and 20% (w/w) of a gel-forming protein in addition to protein present in the non-wheat flour; and between 0.5% and 3% (w/w) of calcium 2+ ions.

The present invention relates to food products comprising Onyx sorghum capable of moderating blood glucose and insulin levels after consumption, thereby treating or preventing diabetes, and methods for the same.

The present invention relates to food products comprising Onyx sorghum capable of moderating blood glucose and insulin levels after consumption, thereby treating or preventing diabetes, and methods for the same.

A composition comprising a whole grain with hydrolyzed starch. Although the starch can shift from relatively higher molecular weight moieties to relatively lower molecular weight moieties during hydrolysis, the relative proportions of the principal anatomical components of the caryopses of the grain—the starchy endosperm, germ and bran—remain approximately the same as evinced, for example, by the weight percentages and relative mass ratios of starch, fat, protein, dietary fiber, beta-glucan, and sugar in the composition. Additionally, the whole grain composition can be a powder, for example, a flour, and the whole grain composition can be granulated to a desired size to provide a powder that is highly dispersible in liquid. When gelatinized, hydrated and dispersed in a liquid, the whole grain with hydrolyzed starch can have a lower viscosity, grittiness, and graininess compared to the same variety of whole grain with unhydrolyzed starch.

A composition comprising a whole grain with hydrolyzed starch. Although the starch can shift from relatively higher molecular weight moieties to relatively lower molecular weight moieties during hydrolysis, the relative proportions of the principal anatomical components of the caryopses of the grain—the starchy endosperm, germ and bran—remain approximately the same as evinced, for example, by the weight percentages and relative mass ratios of starch, fat, protein, dietary fiber, beta-glucan, and sugar in the composition. Additionally, the whole grain composition can be a powder, for example, a flour, and the whole grain composition can be granulated to a desired size to provide a powder that is highly dispersible in liquid. When gelatinized, hydrated and dispersed in a liquid, the whole grain with hydrolyzed starch can have a lower viscosity, grittiness, and graininess compared to the same variety of whole grain with unhydrolyzed starch.