A process for preparing a liquid food product comprising obtaining an oat flour by milling peeled oat grain; mixing the oat flour with water to obtain mixture B; adding at least one glycosidase and heating to a maximum of 80 C., obtaining mixture C comprising a liquid portion containing particles in suspension and a precipitating portion; lowering the temperature of mixture C to a maximum of 30 C. and adding a combination of at least a protease, a deamidase and a transglutaminase to obtain mixture D; incubating mixture D; and separation of the liquid portion and the precipitating portion of mixture D; or separation of the liquid portion and the precipitating portion of mixture C; lowering the temperature of the liquid portion to a maximum of 2 C. and adding at least a protease, a deamidase and a transglutaminase to obtain liquid portion D; and incubating liquid portion D.

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.

Disclosed is a process for the production of aromatized soluble coffee particles. The process comprises the incubation of an aroma donor, such as a roasted coffee, with a acceptor, such as a refined coffee oil. The acceptor can be added prior or after incubation to the soluble coffee particles. The disclosure of the present technology also pertains to a process for the preparation of an instant coffee product comprising aromatized soluble coffee particles. Thereby an odor-acceptable edible oil is subjected to aroma transfer from roast coffee beans, either before or after being applied on soluble coffee particles. The aroma transfer being conducted for an incubation time of at least one day, and the amount of the aromatized oil in the instant coffee is 0.8 wt. % to 4.5 wt. %.

Disclosed is a process for the production of aromatized soluble coffee particles. The process comprises the incubation of an aroma donor, such as a roasted coffee, with a acceptor, such as a refined coffee oil. The acceptor can be added prior or after incubation to the soluble coffee particles. The disclosure of the present technology also pertains to a process for the preparation of an instant coffee product comprising aromatized soluble coffee particles. Thereby an odor-acceptable edible oil is subjected to aroma transfer from roast coffee beans, either before or after being applied on soluble coffee particles. The aroma transfer being conducted for an incubation time of at least one day, and the amount of the aromatized oil in the instant coffee is 0.8 wt. % to 4.5 wt. %.

Compositions comprising a flavor/taste modifying agent and a sweetener are disclosed. The flavor/taste modifying agent is present at an amount sufficient to enhance a flavor and/or taste profile of the sweetener in the composition.

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 moringa extract containing a benzyl glucosinolate in a content of 6% by mass or more, calculated as a dry solid content of the extract, wherein the extract does not substantially contain an alkaloid. The moringa extract of the present invention for solving a first aspect is useful in the field of foodstuff or the like. Also, the PPAR activator of the present invention for solving a second aspect has excellent PPAR activation action, and has no disadvantages in side effects, so that it can be ingested for long term, which can be preferably used in foodstuff and the like. Therefore, the PPAR activator of the present invention for solving a second aspect can be expected to be used as a food, a supplement or a medicament not only for prevention of disease such as insulin resistance, hyperinsulinism, Type 2 diabetes, hypertension, hyperlipidemia, arterial sclerosis and obesity, but also for fatigue recovery or endurance improvement by improving basal metabolism. In addition, a benzyl glucosinolate-containing composition for solving a third aspect is useful in the field of foodstuff or the like.

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.