A reduced sugar presweetened ready to eat breakfast cereal is prepared by coating dried cereal base pieces or food pieces with a reduced-sugar composition comprising maltotriose, maltotetrose in full or partial substitution for sucrose, and a high potency sweetener. The reduced-sugar coating can have a sucrose content of less than 70%, yet provides taste, texture, appearance, and bowl life that mimics presweetened R-T-E cereals having a coating with more sucrose.

A reduced sugar presweetened ready to eat breakfast cereal is prepared by coating dried cereal base pieces or food pieces with a reduced-sugar composition comprising maltotriose, maltotetrose in full or partial substitution for sucrose, and a high potency sweetener. The reduced-sugar coating can have a sucrose content of less than 70%, yet provides taste, texture, appearance, and bowl life that mimics presweetened R-T-E cereals having a coating with more sucrose.

The present invention concerns a method for producing a chewing gum composition containing a fat-free and gelatin-free chewing gum, comprising the following steps: 1) preparing the liquid phase, consisting of polyol and starch syrups, 2) optionally, adding glycerin and/or emulsifier and/or flavours, 3) introducing a powder fraction consisting of non-cariogenic ingredients into the liquid phase obtained in this way, and 4) introducing the gum base, and the chewing gum composition obtained in thus way, in which the fraction of non-cariogenic ingredients comprises powdered polyols with a chosen particle size.

The present invention concerns a method for producing a chewing gum composition containing a fat-free and gelatin-free chewing gum, comprising the following steps: 1) preparing the liquid phase, consisting of polyol and starch syrups, 2) optionally, adding glycerin and/or emulsifier and/or flavours, 3) introducing a powder fraction consisting of non-cariogenic ingredients into the liquid phase obtained in this way, and 4) introducing the gum base, and the chewing gum composition obtained in thus way, in which the fraction of non-cariogenic ingredients comprises powdered polyols with a chosen particle size.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.

Systems and methods provide sugar alcohol to heat stressed ruminants to improve performance. During periods of high temperature or humidity, heat stressed ruminants may exhibit decreased dry matter intake, and in response, an effective amount of sugar alcohol such as sorbitol may be provided in the ruminant diet to cause performance to increase, which may include increased milk yield, improved feed efficiency or both compared to heat stressed dairy cattle without sugar alcohol in the diet.

Systems and methods provide sugar alcohol to heat stressed ruminants to improve performance. During periods of high temperature or humidity, heat stressed ruminants may exhibit decreased dry matter intake, and in response, an effective amount of sugar alcohol such as sorbitol may be provided in the ruminant diet to cause performance to increase, which may include increased milk yield, improved feed efficiency or both compared to heat stressed dairy cattle without sugar alcohol in the diet.

Described are compositions that can be used for medical purposes such as weight loss, obesity, diabetes control and the like. Methods of using these compositions are also described.

The invention provides compositions for producing hydrogen rich water, nutraceuticals, cosmetics, pharmaceuticals, and other products. In one embodiment, the invention provides a composition, e.g., a tablet, including magnesium metal, at least one water-soluble acid, and a binding agent. The magnesium metal and at least one water-soluble acid may be present in amounts sufficient to maintain a pH of less than 7, e.g., at a specific time period after reaction, and a concentration of at least 0.5 mM H.sub.2 after reaction in 50 mL water in a container e.g., a sealed or an open container, e.g., at least 0.5 mM H.sub.2 after reaction in 100 mL water or at least 0.5 mM H.sub.2 after reaction in 500 mL water. The composition may also include a lubricant.