A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

Disclosed is a cereal composition which can be prepared instantly with the addition of a liquid, containing at least one human milk oligosaccharide (HMO), and other components which are necessary for the healthy growth and development of a young 5 individual.

The present disclosure relates to highly resistant starch compositions, methods for preparing such highly resistant starch compositions, and methods of using such highly resistant starch compositions to treat or prevent a disease or condition associated with dysregulation and/or dysfunction of the intestinal microbiome.

A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

A technique for processing ancient, heritage and modern wheat, grains, seeds, beans, legumes, tuber and root vegetables create baking flours suitable for human consumption. The initial ingredient is incubated to initiate germination and activate internal enzymes and nutrient production for useful enzymes, proteins and nutrients. Germination is terminated and the product wet-milled to fracture or shear the outer hull, exposing the inner grain. The product is mixed with water at varying temperatures during which amylase is added. The mixture is incubated to facilitate saccharification of starches into sugars by the amylase enzymes. The mixture is pasteurized to denature the amylases and the mash pressed and/or strained to separate the liquid and solids. The solid phase is dried and milled into higher fiber, high protein, low carbohydrate flour. The liquid is carbohydrate-rich with substantial fiber, protein and other nutrients dissolved in the solution.

The present invention relates to a method for producing a dried food from a fruit or vegetable, more particularly for producing potato flakes. The invention proposes the following method steps for providing a dried food pulp from a fruit or vegetable, more particularly potato flakes, having a low free starch content without the addition of emulsifiers or other additives: Treating the fruit by applying an electrical field; comminuting the treated fruit or vegetable to form a food pulp; and drying the food pulp. The present invention also relates to a dried food pulp, more particularly potato flakes, produced according to the method of the invention, and the use of such a dried food pulp.

The present invention relates to a method for producing a dried food from a fruit or vegetable, more particularly for producing potato flakes. The invention proposes the following method steps for providing a dried food pulp from a fruit or vegetable, more particularly potato flakes, having a low free starch content without the addition of emulsifiers or other additives: Treating the fruit by applying an electrical field; comminuting the treated fruit or vegetable to form a food pulp; and drying the food pulp. The present invention also relates to a dried food pulp, more particularly potato flakes, produced according to the method of the invention, and the use of such a dried food pulp.

A method for preparing a purple sweet potato concentrate that is free from starch, rich in anthocyanins, phenolic compounds, minerals, and soluble dietary fiber with low viscosity, attractive color, and with natural sweetness is presented. The method first prepares and liquefies the purple sweet potatoes and fixes the colorization by adjusting the pH value. Next, amylase and an enzyme complex of hemicellulase, pectinase, cellulase, glucoamylase and protease are added in sequence under conditions effective to produce the juice with the above mentioned properties. The juice is then centrifuged and membrane-filtered to produce a purified purple sweet potato juice which is vacuum-concentrated to yield a purple sweet potato concentrate. Purple sweet potato powder can be obtained by vacuum drying the sediment and concentrate mixture.

A method for preparing a purple sweet potato concentrate that is free from starch, rich in anthocyanins, phenolic compounds, minerals, and soluble dietary fiber with low viscosity, attractive color, and with natural sweetness is presented. The method first prepares and liquefies the purple sweet potatoes and fixes the colorization by adjusting the pH value. Next, amylase and an enzyme complex of hemicellulase, pectinase, cellulase, glucoamylase and protease are added in sequence under conditions effective to produce the juice with the above mentioned properties. The juice is then centrifuged and membrane-filtered to produce a purified purple sweet potato juice which is vacuum-concentrated to yield a purple sweet potato concentrate. Purple sweet potato powder can be obtained by vacuum drying the sediment and concentrate mixture.