The present invention relates to a non-fermented composition having the ability to increase the formation of butyric acid in the colon and comprising at least one cereal based fraction and at least one isolated probiotic strain of Lactobacillus as well as the use of said non-fermented composition as a synbiotic and for treatment of the metabolic syndrome, ulcerative colitis, Crohns disease, Irritable bowel syndrome (IBS), or Inflammatory bowel disease (IBD). The non-fermented composition of the invention is useful for the maintainance of a healthy gut-mucosa and/or for the provision of an increased barrier function of the gut-mucosa.

Provided herein is a rice husk particles wherein at least 90%, by weight, of the total weight of the particles, has a diameter less than 25 m.

The present invention relates to an association of beta-glucans from a first cereal and arabinoxylans from a second cereal different from the first cereal, and their use to improve the microbiota balance in human gut.

Exemplary embodiments provide oat fractions, and methods of producing the oat fractions, of the species Avena Sativa that has a concentration of total Avenanthramides that is from about 2 to about 25 wt. %, and up to about 30 wt. % or more, higher than the concentration before treatment with infrared energy. The higher concentration is achieved without treatment with enzymes or exposure to fungal agents to increase the concentration of total Avenanthramides. Instead, the enhanced concentration of Avenanthramides is achieved through exposure to infrared energy for a selected period of time.

In a method of preparing a liquid oat base a material comprising oat bran is suspended in an aqueous media and contacted with -amylase, -amylase, -glucanase, and xylanase to raise the concentration of soluble arabinoxylan by a factor of 5 or more. Also disclosed is a liquid oat base obtainable by the method; a powderous oat base obtained by drying the liquid oat base; uses of the liquid and powderous oat bases and food products comprising them. A powderous composition for use in preparing liquid oat base comprises oat bran, -amylase, -amylase, -glucanase, and xylanase.

There is described an confectionery composition comprising edible particulate material comprising from 80% to 100% by weight based on total weight of the material of a processable, microbially released, flavour acceptable bran-like material, characterized by the following parameters: (i) mean particle size by volume (Vol. MPS) of from 5 to 100 microns; (ii) volume particle size distribution (Vol. PSD) characterized by the parameters: D.sub.90,3 less than or equal to 350 microns, and D.sub.50,3 less than or equal to 50 microns, and optionally D.sub.10,3 less than or equal to 15 microns, (iii) mean particle sphericity as measured by a S.sub.mean of greater than or equal to 0.75; (iv) where processable means has oil holding capacity (OHC) of from 0.7 to 1.5; (v) where microbially released means material has common microbes below given limits (preferably free of common microbes) (vi) where flavour acceptable denotes a lipase activity (LA) and a peroxidase activity (PA) both less than or equal to 2 U/g and optionally a low degree of roasted flavour notes as defined herein. The bran-like material used in the confectionery compositions may added as a bulk ingredient to replace sugar and/or to provide confectionery fillings and/or coatings having improved hiding ability when used as layers in multilayer confectionery products.

Provided is a nutritionally enhanced derivative (isolate) from Stabilized Rice Bran (SRB) with improved antioxidant, fat and protein levels enhancing both the nutritional and yield values over existing techniques. Also provided is an improved method that utilizes certain enzyme combinations under various time and temperature conditions for extracting these nutritionally enhanced isolates from SRB.

Methods and products related to a baked cereal product having a pre-baked SA content and a post-baked SAG content, wherein the post-baked SAG content is less than about 25% below the pre-baked SAG content.

Aspects of the present disclosure relate to compositions comprising rice bran extract and meat analogues, and methods of making and using the same.

Composite plant-MCT flour includes MCT oil encapsulated by and/or complexed with wall material and incorporated within the composite plant-MCT flour, wherein polysaccharide from the plant flour forms part of the wall material. The wall material includes protein, e.g., pea protein, carbohydrate, and emulsifier(s), and/or polysaccharide fiber, e.g., acacia fiber. The plant flour may be gluten-flour, gluten-free flour and/or low carbohydrate seed, nut or vegetable floor. Composite plant-MCT flour can replace traditional flours to make food products, such as baked, fried or boiled goods but with benefits, such as reduced gluten and/or carbohydrates, increased freshness and volume and improved texture and taste compared to alternative flours and even all-purpose flour.