A method of processing is disclosed that provides improved water retention and enhanced coloring and flavor, while preserving the meat and preventing bacterial contamination. In an exemplary embodiment, the method includes: (a) providing a body of meat at a first temperature; (b) contacting the body of meat of step (a), in at least one treating vessel, with a brine solution at a second temperature, wherein the second temperature is greater than the first temperature, and wherein the brine solution comprises a vinegar-derived food additive and/or a reddening agent, wherein the reddening agent comprises nitrite; (c) agitating the body of meat at the second temperature for a time sufficient to distribute the solution throughout the body of meat; (d) cooling the body of meat in at least one cooling vessel to a third temperature, wherein the third temperature is less than the second temperature; (e) agitating the body of meat at the third temperature; (f) contacting the body of meat of step (e) with the brine solution at the third temperature and agitating the body of meat at the third temperature until the brine solution is substantially absorbed by the body of meat; and (g) recovering the body of meat in a dry state at the third temperature. In one embodiment, the aforementioned brine solution comprises a vinegar-variety food additive, such as a vinegar-derived acetate composition. In another embodiment, the reddening agent comprises nitrate derived from plant material comprising nitrate.

A method of processing is disclosed that provides improved water retention and enhanced coloring and flavor, while preserving the meat and preventing bacterial contamination. In an exemplary embodiment, the method includes: (a) providing a body of meat at a first temperature; (b) contacting the body of meat of step (a), in at least one treating vessel, with a brine solution at a second temperature, wherein the second temperature is greater than the first temperature, and wherein the brine solution comprises a vinegar-derived food additive and/or a reddening agent, wherein the reddening agent comprises nitrite; (c) agitating the body of meat at the second temperature for a time sufficient to distribute the solution throughout the body of meat; (d) cooling the body of meat in at least one cooling vessel to a third temperature, wherein the third temperature is less than the second temperature; (e) agitating the body of meat at the third temperature; (f) contacting the body of meat of step (e) with the brine solution at the third temperature and agitating the body of meat at the third temperature until the brine solution is substantially absorbed by the body of meat; and (g) recovering the body of meat in a dry state at the third temperature. In one embodiment, the aforementioned brine solution comprises a vinegar-variety food additive, such as a vinegar-derived acetate composition. In another embodiment, the reddening agent comprises nitrate derived from plant material comprising nitrate.

Provided herein are antimicrobial coating compositions and food packaging materials coated therewith. The coating compositions include at least one antimicrobial active agent and a hydrophilic polymer, such that the active agent is immobilized within the composition.

Methods and systems for generating a highly energized fluid formula for use in tempering grains and other foodstuffs is described. The temper fluid described herein is capable of reducing pathogens and/or pesticide residues on grains and other foodstuffs. The tempering fluid may include chlorine dioxide with an oxidative carrier solution, and may further include carboxylic acids. The methods described herein may include an alkaline fluid pre-rinse prior to treatment of the grain with the energized fluid formula.

The present application relates to a composition containing chlorogenic acid, caffeic acid, and quinic acid. The polyphenol-containing composition of the present application may be used for reducing an off-taste or off-flavor. In addition, the polyphenol-containing composition of the present application may be used as a preservative of a product, in particular an antioxidant or browning inhibitor of a product.

The disclosure includes novel food coatings and methods of preserving foods and of protecting against damage and/or spoilage to improve appearance, shelf life, and marketability of the foods. The food coatings involve a chitosan solution including chitosan, an organic acid, and a sulfite salt. The food coatings are edible and may create a film on food that protects the food from discoloration, mold growth, and spoilage. The chitosan solution may be applied by spraying, immersion, wiping, fogging, etc. The chitosan solution is show to extend shelf-life of at least catfish, beef steak, hamburger, fruit, vegetables, and berries.

The disclosure includes novel food coatings and methods of preserving foods and of protecting against damage and/or spoilage to improve appearance, shelf life, and marketability of the foods. The food coatings involve a chitosan solution including chitosan, an organic acid, and a sulfite salt. The food coatings are edible and may create a film on food that protects the food from discoloration, mold growth, and spoilage. The chitosan solution may be applied by spraying, immersion, wiping, fogging, etc. The chitosan solution is show to extend shelf-life of at least catfish, beef steak, hamburger, fruit, vegetables, and berries.

A compound and a method for prolonging shelf life of frozen aquatic products are provided. The compound includes: 15-20 parts by weight of modified carboxymethyl chitosan, 5-12 parts by weight of pectin, 2-5 parts by weight of oleic acid, 1-3 parts by weight of yeast selenium, 1-3 parts by weight of natamycin and 2-6 parts by weight of nisin. The method includes sequentially treating a frozen aquatic product under a mixed gas and soaking the frozen aquatic product in the compound. The method can obviously slow down the degradation and oxidative denaturation of protein in aquatic products during cold storage, thus effectively maintaining the activity of protein in the aquatic products and slowing down the deterioration of the aquatic products.

A method for reducing the incidence of Salmonella in harvested meat comprising treating the meat with an effective electrostatically charged antimicrobial solution comprising a blend of lactic and citric acids in proportions containing a predominance of lactic acid from 65:5 wt./wt. to 77:3 wt./wt. lactic acid to citric acid; and the pH of the solution is less than about 3.2.

Antimicrobial compositions comprising one or more compound components generally recognized as safe for human consumption, and related methods of use, such compositions and methods as can be employed in a wide range of agricultural, industrial, building, pharmaceutical and/or personal care products and applications.