A ketogenic dietary consumable provides optimal fats to a consumer who is on the ketogenic diet. The ketogenic dietary consumable utilizes both medium-chain triglycerides (MCTs) and long-chain triglycerides (LCTs) in order to provide necessary calories and avoid stomach discomfort and gastrointestinal distress associated with less triglyceride-diverse dietary supplements. The ketogenic dietary consumable includes a quantity of fractionated coconut oil, a quantity of avocado oil, and a quantity of macadamia nut oil. The quantity of fractionated coconut oil provides the ketogenic dietary consumable with valuable MCTs, which are easily digestible. The quantity of avocado oil and the quantity of macadamia nut oil supply the ketogenic dietary consumable with a strong source of LCTs, thus preventing the rapid digestion of the MCTs from the quantity of fractionated coconut oil that results in stomach discomfort.

A ketogenic dietary consumable provides optimal fats to a consumer who is on the ketogenic diet. The ketogenic dietary consumable utilizes both medium-chain triglycerides (MCTs) and long-chain triglycerides (LCTs) in order to provide necessary calories and avoid stomach discomfort and gastrointestinal distress associated with less triglyceride-diverse dietary supplements. The ketogenic dietary consumable includes a quantity of fractionated coconut oil, a quantity of avocado oil, and a quantity of macadamia nut oil. The quantity of fractionated coconut oil provides the ketogenic dietary consumable with valuable MCTs, which are easily digestible. The quantity of avocado oil and the quantity of macadamia nut oil supply the ketogenic dietary consumable with a strong source of LCTs, thus preventing the rapid digestion of the MCTs from the quantity of fractionated coconut oil that results in stomach discomfort.

Ketogenic compositions including a non-racemic mixture of beta-hydroxybutyrate (BHB) enriched with the S-enantiomer are formulated to control ketone body levels in a subject. The non-racemic mixture of BHB is enriched with the S-enantiomer to modulate the effect of ketone bodies in the subject and control the rate at which ketosis is achieved. In some aspects a composition for controlling ketone body level in a subject contains a dietetically or pharmaceutically acceptable carrier and a non-racemic mixture of S-beta-hydroxybutyrate and R-beta-hydroxybutyrate, wherein the non-racemic mixture contains from about 52% to 99% by enantiomeric equivalents of S-beta-hydroxybutyrate enantiomer and from about 48% to about 1% by enantiomeric equivalents of R-beta-hydroxybutyrate enantiomer.

Ketogenic compositions including a non-racemic mixture of beta-hydroxybutyrate (BHB) enriched with the S-enantiomer are formulated to control ketone body levels in a subject. The non-racemic mixture of BHB is enriched with the S-enantiomer to modulate the effect of ketone bodies in the subject and control the rate at which ketosis is achieved. In some aspects a composition for controlling ketone body level in a subject contains a dietetically or pharmaceutically acceptable carrier and a non-racemic mixture of S-beta-hydroxybutyrate and R-beta-hydroxybutyrate, wherein the non-racemic mixture contains from about 52% to 99% by enantiomeric equivalents of S-beta-hydroxybutyrate enantiomer and from about 48% to about 1% by enantiomeric equivalents of R-beta-hydroxybutyrate enantiomer.

Ketogenic compositions including a non-racemic mixture of beta-hydroxybutyrate (BHB) enriched with the S-enantiomer are formulated to control ketone body levels in a subject. The non-racemic mixture of BHB is enriched with the S-enantiomer to modulate the effect of ketone bodies in the subject and control the rate at which ketosis is achieved. In some aspects a composition for controlling ketone body level in a subject contains a dietetically or pharmaceutically acceptable carrier and a non-racemic mixture of S-beta-hydroxybutyrate and R-beta-hydroxybutyrate, wherein the non-racemic mixture contains from about 52% to 99% by enantiomeric equivalents of S-beta-hydroxybutyrate enantiomer and from about 48% to about 1% by enantiomeric equivalents of R-beta-hydroxybutyrate enantiomer.

Ketogenic compositions including a non-racemic mixture of beta-hydroxybutyrate (BHB) enriched with the S-enantiomer are formulated to control ketone body levels in a subject. The non-racemic mixture of BHB is enriched with the S-enantiomer to modulate the effect of ketone bodies in the subject and control the rate at which ketosis is achieved. In some aspects a composition for controlling ketone body level in a subject contains a dietetically or pharmaceutically acceptable carrier and a non-racemic mixture of S-beta-hydroxybutyrate and R-beta-hydroxybutyrate, wherein the non-racemic mixture contains from about 52% to 99% by enantiomeric equivalents of S-beta-hydroxybutyrate enantiomer and from about 48% to about 1% by enantiomeric equivalents of R-beta-hydroxybutyrate enantiomer.

A food process and resulting product which includes (1) an initial dehydration of, and/or provision of dehydrated ingredients; (2) blending of the dehydrated ingredients sufficiently to form a dry aggregation; (3) oil enhancement of the dry aggregation; (4) rehydration of the ingredients; (5) agglomeration; and (6) final dehydration. The process results in a product that is a more attractive dehydrated product, more attractive and more pleasurable to eat when rehydrated, rehydrates faster, and remains fresh longer.

Provided herein is a method of reducing postprandial concentrations of glucose in a subject's blood comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide, sufficient to reduce the glucose concentration in the subject's blood. Further provided herein is a method of reducing postprandial concentration of ghrelin in a subject's blood, comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide sufficient to increase the blood component wherein the combination is administered to the subject.

Provided herein is a method of reducing postprandial concentrations of glucose in a subject's blood comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide, sufficient to reduce the glucose concentration in the subject's blood. Further provided herein is a method of reducing postprandial concentration of ghrelin in a subject's blood, comprising administering to the subject, prior to or during a meal, an effective amount of a combination of a marine peptide and a fish nucleotide sufficient to increase the blood component wherein the combination is administered to the subject.

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.