The present invention is a cannabinoid enriched creamer composition and kit for human consumption, the composition includes by weight about thirty-five point three-three percent (35.33%) coconut oil, about thirteen point five-eight percent (13.58%) ghee, about thirty-two point six percent (32.6%) goats milk powder, about five point eight-five percent (5.85%) vanilla powder, about one point three-four percent (1.34%) stevia extract, about point three-eight percent (0.38%) sunflower lecithin, and about ten point nine two percent (10.92%) cannabinoid in a liquid state.

The present invention is a cannabinoid enriched creamer composition and kit for human consumption, the composition includes by weight about thirty-five point three-three percent (35.33%) coconut oil, about thirteen point five-eight percent (13.58%) ghee, about thirty-two point six percent (32.6%) goats milk powder, about five point eight-five percent (5.85%) vanilla powder, about one point three-four percent (1.34%) stevia extract, about point three-eight percent (0.38%) sunflower lecithin, and about ten point nine two percent (10.92%) cannabinoid in a liquid state.

Provided is a food or beverage product having good taste with sharp astringent taste of cycloaspartylglycine in the food or beverage product reduced. The content of cycloaspartylglycine and the weight ratio of the content of glucose to the content of maltose ([glucose]/[maltose] weight ratio) in the food or beverage product are adjusted to fall within specific ranges.

Provided is a food or beverage product having good taste, with lingering unpleasant bitterness unique to epigallocatechin gallate in the food or beverage product reduced. The content of epigallocatechin gallate and the content of cycloprolyl threonine in the food or beverage product are adjusted to fall within specific ranges.

A flavor-enhanced beverage includes an added amount of pyroglutamic acid or a salt thereof. The pyroglutamic acid may be in the form of L-pyroglutamic acid, D-pyroglutamic acid, monosodium L-pyroglutamate, monosodium D-pyroglutamate, or a mixture thereof. Both ready-to-drink beverages (such as fruit juices, vegetable juices, coffee, tea, carbonated soft drinks, energy drinks, sports drinks, dairy, and low calorie drinks) as well as concentrated beverages used for the preparation of ready-to-drink beverages benefit from the addition of the pyroglutamic acid. The addition to a beverage product may be in an amount of up to about 3,000 ppm of pyroglutamic acid or a salt thereof, in concentrates, or up to about 300 ppm in ready-to-drink beverages.

A flavor-enhanced beverage includes an added amount of pyroglutamic acid or a salt thereof. The pyroglutamic acid may be in the form of L-pyroglutamic acid, D-pyroglutamic acid, monosodium L-pyroglutamate, monosodium D-pyroglutamate, or a mixture thereof. Both ready-to-drink beverages (such as fruit juices, vegetable juices, coffee, tea, carbonated soft drinks, energy drinks, sports drinks, dairy, and low calorie drinks) as well as concentrated beverages used for the preparation of ready-to-drink beverages benefit from the addition of the pyroglutamic acid. The addition to a beverage product may be in an amount of up to about 3,000 ppm of pyroglutamic acid or a salt thereof, in concentrates, or up to about 300 ppm in ready-to-drink beverages.

A beverage supplement and method for making the same is disclosed. In some embodiments the beverage supplement is comprised of a first frozen composition made from at least one additive mixed with at least one liquid and a second frozen composition made from at least one additive mixed with at least one liquid, wherein the resulting frozen compositions may have different/varying surface areas, shapes, volumes, flavors, and concentrations. Varying the combination of surface areas, shapes, volumes, formulas, flavors, and concentrations of frozen compositions influences the duration of complete liquefaction and the release of additives, allowing a user to create an iced beverage with greater flavor control.

A beverage supplement and method for making the same is disclosed. In some embodiments the beverage supplement is comprised of a first frozen composition made from at least one additive mixed with at least one liquid and a second frozen composition made from at least one additive mixed with at least one liquid, wherein the resulting frozen compositions may have different/varying surface areas, shapes, volumes, flavors, and concentrations. Varying the combination of surface areas, shapes, volumes, formulas, flavors, and concentrations of frozen compositions influences the duration of complete liquefaction and the release of additives, allowing a user to create an iced beverage with greater flavor control.

Aspects described herein relate to food and beverage compositions infused with lipophilic active agents and methods of use for the treatment of a variety of disorders. More particularly, aspects described herein relate to food and beverage compositions infused with lipophilic active agents such as cannabinoids, nicotine, nonsteroidal anti-inflammatories (NSAIDs), and vitamins, that provide enhanced bioavailability of the lipophilic active agents in a subject, and that mask unpleasant tastes of lipophilic active agents.

The present technology provides a method for preparing an acid-reducing filter that includes depositing a mineral blend layer to a filter substrate, where the mineral blend layer comprises calcium carbonate and magnesium carbonate at a weight ratio of about 1:10 to about 10:1, the mineral blend is free of soluble halide or hydroxide salts of alkali or alkaline earth metals, and the mineral blend layer is insoluble in water.