Automatic germination equipment for oat grains includes a plurality of germination accelerating tank bodies each of which is of a hollow structure, a first direction and a second direction are self-defined in each germination accelerating tank body, a plurality of leaching layers are fixedly arranged in each germination accelerating tank body in the first direction, and the leaching layers are fixedly installed on an inner side surface of the germination accelerating tank body; and a reciprocating switch valve device which includes a bottom valve and a rotating lead screw fixedly connected to the bottom valve, the bottom valve is fixedly connected to an outer side surface of the germination accelerating tank body in the first direction, and one end of the rotating lead screw away from the bottom valve passes through the leaching layers in the second direction and extends towards the interior of the germination accelerating tank body.

A nutraceutical composition comprising prebiotics, probiotics, and/or synbiotics, spirulina, cereals and micronutrients for improving a person's health, and methods for boosting the immune system and improving vaccine effectiveness in vulnerable populations with the nutraceutical composition, including undernourished children, lactating and pregnant mothers in LDCs, the elderly, and persons with cancer or at risk of developing cancer.

The present invention relates to the use of amyloid fibrils for providing nutritional minerals to the human body, particularly as a component in a food product, a dietary supplement or in a pharmaceutical product. The invention further provides for new compositions comprising composite materials of amyloid fibrils and nutritional minerals. The invention further relates to the use of such composite materials in the treatment of diseases and disorders and to the fortification of food and dietary supplements with nutritional minerals.

The present invention relates to the use of amyloid fibrils for providing nutritional minerals to the human body, particularly as a component in a food product, a dietary supplement or in a pharmaceutical product. The invention further provides for new compositions comprising composite materials of amyloid fibrils and nutritional minerals. The invention further relates to the use of such composite materials in the treatment of diseases and disorders and to the fortification of food and dietary supplements with nutritional minerals.

The present invention relates to a process for producing an extract derived from sugar cane, the process comprising: i) mixing a sugar cane derived product with ethanol to produce an extraction mixture comprising at least about 50% v/v ethanol; ii) allowing a precipitate to form in the extraction mixture; iii) removing the precipitate from the extraction mixture to obtain a supernatant; and iv) removing ethanol from the supernatant to produce the extract derived from sugar cane. The present invention further relates to extracts produced according to the process of the invention. The invention also relates to the use of such extracts in a method of lowering the available calorific value of a food or beverage, in treating or preventing disease, and as a nutritional supplement, dietary supplement, sports nutrition product, food coating or pharmaceutical product.

The present invention relates to the field of prebiotics. Provided are uses for compositions comprising synergistically effective amounts of polyfructose and galactooligosaccharides (GOS).

The present invention relates to a process for producing an extract derived from sugar cane, the process comprising: i) mixing a sugar cane derived product with ethanol to produce an extraction mixture comprising at least about 50% v/v ethanol; ii) allowing a precipitate to form in the extraction mixture; iii) removing the precipitate from the extraction mixture to obtain a supernatant; and iv) removing ethanol from the supernatant to produce the extract derived from sugar cane.

The present invention further relates to extracts produced according to the process of the invention. The invention also relates to the use of such extracts in a method of lowering the available calorific value of a food or beverage, in treating or preventing disease, and as a nutritional supplement, dietary supplement, sports nutrition product, food coating or pharmaceutical product.

A grain-popping machine and associated pod-based popping method is disclosed. The grain-popping is configured to receive a pod. Each pod includes a plurality of cells, with each cell preferably containing a single grain kernel or seed, flavoring, and a cooking medium such as oil or shortening. In a preferred embodiment, the pod is loaded into the grain-popping machine through a slot so that it is held in position adjacent to a heating element. The heating element is activated to begin a popping sequence. When each grain kernel or seed in the pod reaches popping temperature, it absorbs the flavoring in its cell and ejects through the bottom of the pod, which can be weakened to ease ejection, into a bowl positioned in a receiving area of the grain-popping machine. The pod is then removed and disposed of.

Disclosed are improved sugar coatings for topically pre-sweetened food products that are sugar reduced whether in the form of a syrup or in the form of a dried coating. The syrup form is useful as an intermediate product in the preparation of pre-sweetened food products. In dry form, the present formulations can be a component part of a composite food product especially in the form of a topical coating or filling. The present invention is particularly suited for the preparation of R-T-E pre-sweetened cereals. The coating formulations comprise less than 70% sucrose, corn syrup and 1-20% non-hydrated integrated starch and preferably about 5-10% insoluble mineral salts each of particle size of about 50 microns.

Disclosed are improved sugar coatings for topically pre-sweetened food products that are sugar reduced whether in the form of a syrup or in the form of a dried coating. The syrup form is useful as an intermediate product in the preparation of pre-sweetened food products. In dry form, the present formulations can be a component part of a composite food product especially in the form of a topical coating or filling. The present invention is particularly suited for the preparation of R-T-E pre-sweetened cereals. The coating formulations comprise less than 70% sucrose, corn syrup and 1-20% non-hydrated integrated starch and preferably about 5-10% insoluble mineral salts each of particle size of about 50 microns.