The present invention relates to a non-dairy food composition comprising particles of an emulsion gel dispersed in a crystallized lipid; wherein the emulsion gel comprises a combination of dietary fiber; plant protein, lipid and calcium; and wherein the composition is devoid of additives. The composition of the invention is free of cholesterol, low in saturated fats and methods for making them. In a particular aspect of the present invention, the non-dairy food composition is employed as an animal fat substitute to mimic the appearance and texture of adipose tissue as well as appealing mouthfeel and texture in meat-analogues.

Filled cluster products comprising an inner material and an outer shell, and methods of manufacturing the same, are disclosed. Outer shells comprising delicate exclusions are susceptible to moisture and force and present a challenge in manufacturing filled cluster products. Typical filled cluster products with delicate extrusions have an outer shell with a high binder to exclusion ratio and significant sugar content. Disclosed herein are methods and formulations for the manufacture of filled cluster products having low binder to exclusion ratio and a low sugar content.

Filled cluster products comprising an inner material and an outer shell, and methods of manufacturing the same, are disclosed. Outer shells comprising delicate exclusions are susceptible to moisture and force and present a challenge in manufacturing filled cluster products. Typical filled cluster products with delicate extrusions have an outer shell with a high binder to exclusion ratio and significant sugar content. Disclosed herein are methods and formulations for the manufacture of filled cluster products having low binder to exclusion ratio and a low sugar content.

The application provides nutraceutical compositions supporting an active life style and helps with the post-exercise recover. In one embodiment, the nutraceutical composition includes a gelling component in a sufficient amount to provide a cohesive gelled product and an active component. The active component consists of a vitamin B composition, a carbohydrate composition, an amino acid composition, an antioxidant composition, and an anti-inflammatory.

The nutraceutical composition includes a neuroprotecting composition, an anti-inflammatory composition, a cardiovascular protecting composition, an antioxidant composition, and a gelling component in a sufficient amount to provide a cohesive gelled product.

Hydrogels are blended with water to produce a hydrogel solution. Viscosity of the hydrogel solution is controlled by adjusting the ratio of hydrogel to water and/or by adjusting the blending conditions. The hydrogel solutions may be used to modify the rheology of agricultural compositions. The hydrogel may include lactose, which may be provided by a milk permeate waste stream from the dairy or food processing industry.

The invention comprises a method and apparatus for forming a Cannabis product, comprising the steps of: in a first process, decreasing viscosity of a tetrahydrocannabinol stock, of at least fifty percent purity, by at least two thousand centipoise through: (1) the addition of at least one of: ethanol, butter, a fat, and an oil to form an intermediate tetrahydrocannabinol compound and (2) heating the intermediate tetrahydrocannabinol compound to at least 40° C.; in a subsequent process, further reducing viscosity of the intermediate tetrahydrocannabinol compound to less than 100 centipoise by diluting the tetrahydrocannabinol compound with water at a ratio of at least ten parts water to one part tetrahydrocannabinol stock, by at least one of mass and volume, to form a liquid THC product; and packaging the liquid THC product in a container for distribution from a manufacturing point to a point of sale.

The invention comprises a method and apparatus for forming a Cannabis product, comprising the steps of: in a first process, decreasing viscosity of a tetrahydrocannabinol stock, of at least fifty percent purity, by at least two thousand centipoise through: (1) the addition of at least one of: ethanol, butter, a fat, and an oil to form an intermediate tetrahydrocannabinol compound and (2) heating the intermediate tetrahydrocannabinol compound to at least 40° C.; in a subsequent process, further reducing viscosity of the intermediate tetrahydrocannabinol compound to less than 100 centipoise by diluting the tetrahydrocannabinol compound with water at a ratio of at least ten parts water to one part tetrahydrocannabinol stock, by at least one of mass and volume, to form a liquid THC product; and packaging the liquid THC product in a container for distribution from a manufacturing point to a point of sale.

The present invention provides a composition for providing thickness to foods and drinks and improving swallowability for foods and drinks. More specifically, the present invention is a composition comprising a first thickener and a second thickener for providing thickness to foods and drinks and improving swallowability for foods and drinks, wherein

the first thickener shows pseudoplasticity at the shear rate from 1 to 100S.sup.−1,

the second thickener shows Newtonian viscosity at the shear rate from 1 to 100S.sup.−1,

and the thickeneing effect when the first and the second thickeners are used in combination in an equal amount is equal to or less than an additive level of the thickening effect when each were used alone.

The invention provides a method for producing an oleogel, the method comprising a mixing stage, a cross-linking stage and optionally a drying stage; wherein the mixing stage comprises mixing starting materials to provide a starting mixture, wherein the starting materials comprise (i) a hydrocolloid, (ii) a protein, (iii) one or more of a fat and an oil, and (iv) water, wherein the protein is a vegetable based protein and wherein the one or more of the fat the oil is a vegetable based; wherein the cross-linking stage comprises cross-linking the hydrocolloid and the protein in the starting mixture, to provide a cross-linked structure; and wherein the optional drying stage comprises drying the cross-linked structure to provide a further processed cross-linked structure; wherein the oleogel comprises the cross-linked structure or wherein the oleogel comprises the further processed cross-linked structure, wherein the oleogel comprises a total amount of fat and oil relative to a total amount of the oleogel in the range of 20-90 wt. %.