The present invention relates to a food grade powder comprising a dried hydrogel co-gel comprising a first biopolymer capable of forming a thermoreversible elastic gel upon cooling to 25 C. or above and a second biopolymer capable of forming a glassy matrix upon drying. The food grade powder may provide controlled release of aroma, the aroma being encapsulated in the hydrogel co-gel. Further aspects of the invention are a food product comprising the food grade powder, a method of making a food grade powder providing controlled release of an aroma and the use of a hydrogel co-gel to control the release of an aroma.

Provided is a method for preparing a processed pork snack containing a high concentration of pork-derived collagen by a process, including the following steps: step (1) of washing and cutting of raw material pork); step (2) of pork boiling; step (3) of pork cooling and fat removal; step (4) of cutting according to size, water removal, cutting and preservative addition; step (5) of natural drying, drying at 18 to 30 C.; step (6) of baking at low-temperature drying in an oven; step (7) of boiling; step (8) of natural drying; step (9) of heating and puffing at instantaneous high temperature under pressure; and step (10) of treating the puffed collagen with a carrier such as a sweetener or a preservative.

Compositions and methods for preparing a multi-texture, non-baked foodstuff having a first component with a first soluble solids ratio; and a second component with a second soluble solids ratio, wherein the second component is a non-baked foodstuff having at least 1% weight fraction of particulate matter having a particle size of about at least 100 m, including at least one setting agent and at least one texture-modifying particulate ingredient and having a gel strength of about at least 100 and a liquid weight fraction of about at least 35%.

A gummy composition comprising at least 46 percent by weight of the composition of a protein, wherein at least a portion of the protein is hydrolized. A composition can include 47-57 grams protein-based gelatin; 28-43 grams water; 1-5 grams citric acid; and 0.05-0.2 grams potassium sorbate as a preservative. The protein-based gelatin can provide high protein content for macronutrient density while at the same time allowing the physical structure of the chewable gummy to maintain a balance between pleasurable palate feel (i.e., texture) and resistance to deformation (in particular, deformation due to heat, for example).

A raw material for a gummy composition, and a gummy candy composed of the gummy composition, contain pyroglutamic acid, preferably in an amount of 0.08 mass % to 1.5 mass %. By adding pyroglutamic acid, the gummy candy has an improved melt-in-the-mouth feeling, while also being non-adhesive and soft, and having improved flavor release during chewing.

Several methods are described for generating mycelial scaffolds for use several technologies. In one embodiment, a mycelial scaffold is generated using a perfusion bioreactor system for cell-based meat technologies. In another embodiment, a mycelial scaffold is prepared for biomedical applications. The mycelial scaffolds may be generated from a liquid medium or from a solid substrate.

The invention relates to a method for preparing food products by means of co-extrusion, wherein at least two casing material components are mixed to make a viscous gelling solution. This viscous gelling solution is subsequently co-extruded whereby the gelling solution is forming the external layer of an extruded strand of food dough. The invention also relates to a viscous gelling solution obtainable by such method as well as a system for co-extrusion of food products.

A nutraceutical food product includes a solid matrix and a liquid combined into a gel. The nutraceutical food product may include an immune modulator, such as transfer factor and/or a nanofraction immune modulator. A fruit component may be included in the nutraceutical food product. The fruit component may include at least one oligoproanthocyanidin-containing fruit, such as aai.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

An edible structure may comprise a gelatin film and fiber strips. The gelatin film may have a higher density of gelatin in a first layer of the film than in a second layer of the film. The fiber strips may be attached to the first layer, and may have an initial orientation, thickness and density. The structure may be configured to undergo a shape transformation when the apparatus hydrates. During the transformation, the film may transform from a flat film into a curved, 3D film. Which specific shape results from the transformation may depend, at least in part, on the initial orientation, thickness and density of the fiber strips. The film may include flavorings or other additives. In some cases, the transformation may change a texture of the structure. In some cases, the transformation may be caused, at least in part, by a change in temperature.