Engineered food to promote health and maintain homeostasis in a subject and methods of producing the food.

A method for producing liver pâté that models classic goose liver pâté made of goose foie gras. The liver pâté does not contain foie gras and only humanely produced raw materials are used. Aqueous jelly is obtained from collagen-containing animal tissue and concentrated into water-soluble jelly. Liquid fat is obtained from animal fat tissue. Raw strained animal liver is obtained by separating solid components. The concentrated aqueous jelly, liquid fat and strained raw liver are mixed, cured and cooked in a container.

Provided is a bubble-jetting member, the tip section of which is not damaged even when high voltage is applied thereto.

There can be provided a bubble jetting member comprising: a core that is formed of a conductive material; a shell part that is formed of an insulating material, includes an extended section that extends beyond the tip of the core, and is closely adhered at least partially to the core and covers the core; and a space that is formed between the extended section and the tip of the core and has a bubble-jetting port, wherein there is formed on the tip of the extended section a thick portion that is thicker than the rest of the extended section whereby the tip section is not damaged.

Provided is a bubble-jetting member, the tip section of which is not damaged even when high voltage is applied thereto.

There can be provided a bubble jetting member comprising: a core that is formed of a conductive material; a shell part that is formed of an insulating material, includes an extended section that extends beyond the tip of the core, and is closely adhered at least partially to the core and covers the core; and a space that is formed between the extended section and the tip of the core and has a bubble-jetting port, wherein there is formed on the tip of the extended section a thick portion that is thicker than the rest of the extended section whereby the tip section is not damaged.

A method for processing or manufacturing a meat product is disclosed. Frozen meat is provided into a meat grinder having a grinder plate having a first surface and a second surface defining apertures of different sizes and shapes extending between the first surface and the second surface. The meat is urged through the apertures by a coolant and chopped or broken into frozen pieces by a blade rotating a spaced distance from the second surface of the plate. The frozen pieces are then provided into and conveyed by an auger conveyor as more coolant is provided into the conveyor to further cool the meat pieces. The meat pieces are then sifted to more optimally obtain desired pieces sizes or range of sizes and/or sublimate the coolant.

A method for identifying and removing tissue from a food product that includes generating a three-dimensional model of a food product using a scanner and mapping the three-dimensional model onto the food product. The method also includes scanning the food product such that cross-sectional scanning images are generated based on the model, and, for each cross-sectional scanning image, determining a maximum thickness of the model and identifying a corresponding estimated tissue point, by using an identification method based on suitable characteristics of the food product model. The method includes fitting a curve to the estimated tissue points and generating a cut path based on the fitted curve, wherein the cut path defines an area of unwanted tissue that includes the estimated tissue points. The method further includes cutting the food product along the cut path, thereby, removing the area of unwanted tissue.

A fire searing process for meat comprises cooking meat in an oven and then at least crust-freezing the meat in a freezer. The oven has a temperature of at least 1500° F., and the meat is cooked in the oven for approximately 10 seconds to 3 minutes. The meat is cooked to a depth of approximately 0.25 to 25% of the meat extending into an inner surface of the meat from an outer surface of the meat to form a crust-like portion proximate the outer surface of the meat. The meat is then at least crust-frozen in a freezer having a temperature of approximately −35 to 0° F. for approximately 1 to 6 minutes. The freezer prevents the meat from being further cooked to preserve the crust-like portion proximate the outer surface of the meat.

A fire searing process for meat comprises cooking meat in an oven and then at least crust-freezing the meat in a freezer. The oven has a temperature of at least 1500° F., and the meat is cooked in the oven for approximately 10 seconds to 3 minutes. The meat is cooked to a depth of approximately 0.25 to 25% of the meat extending into an inner surface of the meat from an outer surface of the meat to form a crust-like portion proximate the outer surface of the meat. The meat is then at least crust-frozen in a freezer having a temperature of approximately −35 to 0° F. for approximately 1 to 6 minutes. The freezer prevents the meat from being further cooked to preserve the crust-like portion proximate the outer surface of the meat.

The present invention relates to preservation of meat products. In particular new procedures and additives are provided for effective inhibition or prevention of bacterial outgrowth in meat products. The present inventors found that a combination of a vanillin component and a cinnamate component was effective in the inhibition or prevention of bacterial outgrowth in meat products. The combinations, more in particular, proved to be effective at levels that do not result in significant effects on the flavor and/or taste of the products. The present inventors furthermore found that treatment of meat products with the combinations of this invention had a favorable effect on the visual appearance (color) of the meat products. The present invention provides preservative compositions, the use of these preservative systems, the meat products containing them, and methods of treating meat.

The present invention relates to preservation of meat products. In particular new procedures and additives are provided for effective inhibition or prevention of bacterial outgrowth in meat products. The present inventors found that a combination of a vanillin component and a cinnamate component was effective in the inhibition or prevention of bacterial outgrowth in meat products. The combinations, more in particular, proved to be effective at levels that do not result in significant effects on the flavor and/or taste of the products. The present inventors furthermore found that treatment of meat products with the combinations of this invention had a favorable effect on the visual appearance (color) of the meat products. The present invention provides preservative compositions, the use of these preservative systems, the meat products containing them, and methods of treating meat.