A composition for coating an edible substrate including about 85.0 wt % to about 95.0 wt % of a cellulose film former (e.g., hydroxypropyl methyl cellulose), about 5.0 wt % to about 15.0 wt % of a plasticizer (e.g., glycerin), and about 1.0 wt % to about 4.0 wt % of a lubricant selected from sunflower oil, vegetable oil, hydrogenated vegetable oil, mineral oil, a fatty acid, or a combination thereof, relative to the total weight of non-water components of the composition. The composition may be applied to a nutritional supplement, a pharmaceutical, a tablet, a capsule, a softgel, a granule, a microparticle, a nanoparticle, a seed, a sugar sphere, gum chew base, chewable gel, or a gummy substrate

A film coating composition comprising a cellulosic polymer, an opacifying agent, and a fatty acid is disclosed herein. Also disclosed is a film coating composition comprising a cellulosic polymer, an opacifying agent, a plasticizing agent, and a polyol. The disclosed film coating compositions may be mixed with a solvent to produce a film coating suspension. The film coating suspension can be applied to a substrate, such as a nutritional supplement, pharmaceutical, tablet, capsule, softgel, granule, particle, food confectionary form, agricultural seed, and the like to form a film coating on the substrate. Methods of coating a substrate with the film coating suspensions are also provided.

A film coating composition comprising a cellulosic polymer, an opacifying agent, and a fatty acid is disclosed herein. Also disclosed is a film coating composition comprising a cellulosic polymer, an opacifying agent, a plasticizing agent, and a polyol. The disclosed film coating compositions may be mixed with a solvent to produce a film coating suspension. The film coating suspension can be applied to a substrate, such as a nutritional supplement, pharmaceutical, tablet, capsule, softgel, granule, particle, food confectionary form, agricultural seed, and the like to form a film coating on the substrate. Methods of coating a substrate with the film coating suspensions are also provided.

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.

A coated iron powder including a core of precursor iron powder, wherein the iron powder is reduced or electrolytic iron powder; a first coating including a first polymer and a first pigment, wherein the coating has a thickness of thickness of 5 to 30 m; a coating of an adjuvant, wherein the adjuvant includes ascorbic acid; and a second coating including a second polymer and a second pigment, wherein the coating has a thickness of thickness of 5 to 30 m.

A coated iron powder including a core of precursor iron powder, wherein the iron powder is reduced or electrolytic iron powder; a first coating including a first polymer and a first pigment, wherein the coating has a thickness of thickness of 5 to 30 m; a coating of an adjuvant, wherein the adjuvant includes ascorbic acid; and a second coating including a second polymer and a second pigment, wherein the coating has a thickness of thickness of 5 to 30 m.

The subject matter of the invention is a sugar-free hard dragee consisting of a compressed core and a hard coating completely surrounding the compressed core, wherein the hard dragee is sugar-free. The compressed core contains a mixture of erythritol. D-sorbitol and steviol whereas the hard coating contains a mixture of D-maltitol, erythritol and stevia/steviol. The hard dragees according to the invention surprisingly have a good compatibility in spite off the combination of sugar replacement substances and non-sugar sweeteners. Moreover, the compressed cores of the hard dragees according to the invention have a very good compressibility.

The present disclosure provides systems and methods for binding active ingredients onto consumable high pressure gasified crystals. The method of binding dietary supplements, nutraceuticals, and active ingredients onto carbonated crystals (candy) can be performed to preserve the full benefits of the ingredients by using low or zero moisture, low or ambient temperatures, and ensuringeven dispersal of the ingredients per dosage. The supplements can be retained in the mouth of a user via sensory signals until orally absorbed.

A food product is coated with an edible, meltable powder. Upon melting, the powder-coated food product melts into a liquid coating on the food product. The meltable powder comprises a dry component free of starch and at least one of: a sorbitol dry component; an erythritol dry component; an arabitol dry component; a xylitol dry component; a lactitol dry component; a maltitol dry component; a combination of isomalt and sorbitol; a shellac dry component free of fatty acids; a soluble fiber dry component; a fructose dry component, a trehalose dry component, a glucose dry component, a maltose dry component, and an isomaltulose dry component. The polyols when present are free of polysaccharides. A number of food products can be coated with one or more of the dry components, which are subsequently melted to form a coating.