A process for making edible oil-continuous emulsions by mixing slurries of hardstock fat crystals in oil with an aqueous phase to form an emulsion followed by addition of a melted hardstock. More in particular, the oil-continuous emulsions are spreads or margarines.

A triglyceride oil-in-glycerin emulsion with triglyceride oil in an amount equal to between forty and seventy percent of the emulsion on a weight basis, glycerin in an amount equal to between twenty and sixty percent of the emulsion on a weight basis, and lecithin in an amount equal to between one and ten percent of the emulsion on a weight basis. The lecithin has a hydrophilic lipophilic balance value in the range of four to seven and contains at least ten percent phosphatidylcholine on a weight basis. The free fatty acids in the emulsion have an acid value of less than two. The emulsion does not contain any preservatives.

An oil-in-water emulsified composition, containing the following components (A), (B), and (C): (A) a fat or oil having a content of diacylglycerols of 15 mass % or more and a content of -linolenic acid in constituent fatty acids of the fat or oil of 15 mass % or more, (B) 0.020 mass % to 1.0 mass % of a vitamin C fatty acid ester with respect to the component (A), and (C) 0.15 mass % to 6.0 mass % of a hydroxy acid or a salt thereof.

The present invention relates to a low-fat water-in-oil (W/O) emulsion comprising a fat phase in an amount of at most 60 wt % relative to the total weight of the emulsion, an aqueous phase dispersed within the fat phase and an emulsifier composition, said emulsifier composition comprising an Acetone-insoluble (AI) component containing a Phosphatidyl Choline (PC), a Phosphatidyl Inositol (PI), a Phosphatidyl Ethanolamine (PE) and a Phosphatidic Acid (PA), wherein PC is in an amount of at most 15.5% relative to the total weight of the emulsifier composition and wherein the emulsifier composition is characterized by a weight ratio R of at most 65%, the ratio R being defined as (1) wherein PC+PI+PE+PA is the sum of the individual weights of the respective constituents of the AI component and AI is the total weight of the AI component.

The present invention relates to methods of stabilizing phospholipids (PLs) and lysophospholipids (LPLs) in water. One aspect of the present invention relates to a method of stabilizing PLs and LPLs comprising treatment of the PLs and/or the LPLs with surfactants, co-surfactants, and a salt. Another aspect of the present invention relates to increasing the dispersion of PLs and LPLs in water and maintaining phase stability over a time period of over 12 months and a temperature range of 10 to 50 C. There are many advantages of the present invention including but not limited to improved feed mill efficiency, pellet quality, oil-water emulsification and animal performance when included in the feed.

The present invention discloses processes for the preparation of phospholipid-enriched dairy products as nutraceuticals for the formulation of functional foods, the processes include the steps of: combining a non-dairy-based PL-containing material, having phosphatidylserine (PS) and/or phosphatidic acid (PA) in the PL-containing material, wherein the PS and/or PA is derived in part from an enzymatically-processed lecithin as a PS-calcium and/or -magnesium salt and/or a PA-calcium and/or-magnesium salt via transphosphatidylation with phospholipase D in the presence of L-serine and a calcium and/or magnesium salt, with water and an oil component to form a paste; removing an excess amount of the water from the paste to form a PL-oil solution; and mixing the PL-oil solution with a dairy component, thereby obtaining a PL-enriched dairy product. Alternatively, the PL-oil solution has a weight-to-weight (w-w) concentration of at least about 0.01% of a residual amount of the water to the PL-containing material.

The present invention discloses processes for the preparation of phospholipid-enriched dairy products as nutraceuticals for the formulation of functional foods, the processes include the steps of: combining a non-dairy-based PL-containing material, having phosphatidylserine (PS) and/or phosphatidic acid (PA) in the PL-containing material, wherein the PS and/or PA is derived in part from an enzymatically-processed lecithin as a PS-calcium and/or -magnesium salt and/or a PA-calcium and/or-magnesium salt via transphosphatidylation with phospholipase D in the presence of L-serine and a calcium and/or magnesium salt, with water and an oil component to form a paste; removing an excess amount of the water from the paste to form a PL-oil solution; and mixing the PL-oil solution with a dairy component, thereby obtaining a PL-enriched dairy product. Alternatively, the PL-oil solution has a weight-to-weight (w-w) concentration of at least about 0.01% of a residual amount of the water to the PL-containing material.

The present invention relates to a low-fat water-in-oil (W/O) emulsion comprising a fat phase in an amount of at most 60 wt % relative to the total weight of the emulsion, an aqueous phase dispersed within the fat phase and an emulsifier composition, said emulsifier composition comprising an Acetone-insoluble (AI) component containing a Phosphatidyl Choline (PC), a Phosphatidyl Inositol (PI), a Phosphatidyl Ethanolamine (PE) and a Phosphatidic Acid (PA), wherein PC is in an amount of at most 15.5% relative to the total weight of the emulsifier composition and wherein the emulsifier composition is characterized by a weight ratio R of at most 65%, the ratio R being defined as (1) wherein PC+PI+PE+PA is the sum of the individual weights of the respective constituents of the AI component and AI is the total weight of the AI component.

The present invention relates to microbial safety of meat products. In particular new additives are provided for effective reduction of pathogenic bacteria, such as Shiga toxin producing Escherichia coli (STEC), on or in meat products. The present inventors found that a combination of a nonionic surfactant and organic acid is particularly effective in the reduction of these and other pathogenic bacteria in meat products. The addition of a thickening agent was found to further enhance the effectiveness of the compositions in eliminating these pathogenic bacteria. The present invention provides these meat preservation compositions, the methods of treating meat with these compositions, the related uses of these compositions, as well as the meat products accordingly obtained.

Disclosed is a base oil for functional food oils and fats, a preparation method therefor and the use thereof. The base oil for functional food oils and fats is formed through ternary transesterification on medium-chain triglycerides, high-melting-point fat and oils rich in linolenic acid. The base oil for functional food oils and fats has a wide melting range, can significantly improve the glucose and lipid metabolism disorder, balance the essential and functional fatty acids in the body, and quickly replenish energy. Animal experiments were conducted and the fatty acid composition and distribution of the base oil were optimized and determined through comparative analysis based on evaluation indicators such as the improved effect in glucose and lipid metabolism and melting point.