The invention provides a water-in-oil emulsion for the preparation of a frozen confection, the emulsion comprising a weight ratio of water phase to oil phase of from 94:6 to 70:30 wherein: the oil phase comprises at least an edible oil and an emulsifier, the emulsifier having an average HLB of from 0.1 to 5; the water phase comprises at least water and one or more freezing point depressors; the emulsion comprises at least (W×A) wt % emulsifier by weight of the emulsion where: W is the proportion of the water phase in the emulsion expressed as the weight percentage of the total emulsion; and A is 0.0001; the emulsion comprises at most (O×0.2) wt % emulsifier by weight of the emulsion where: O is the proportion of the oil phase in the emulsion expressed as the weight percentage of the total emulsion; the emulsion comprises from 4 to 40 wt % of one or more freezing point depressors by weight of the emulsion; and the temperature at which the edible oil contains 25 wt % solid fat by weight of the edible oil is less than temperature at which the water phase contains 25 wt % ice by weight of the water phase.

The present invention relates to a process for preparing a freeze-dried composition selected from infant formula, follow-on formula or growing up milk, said composition comprises large lipid globules, preferably coated with polar lipids.

Shelf-stable dressing compositions that are readily sprayable are provided herein. The shelf-stable dressings are generally comprised of oil, water, a thickening agent, an acidic component, and an emulsifier in amounts effective to provide a stable emulsion with microbial stability. The shelf-stable dressing compositions provided herein are advantageously characterized by a sprayable viscosity that allows the emulsified dressings to be evenly dispersed via a spray nozzle.

The present disclosure relates to parenteral nutritional formulations, including ready-to-use parenteral nutrition formulations. More particularly, the present disclosure is directed to lipid formulations or emulsions and multi-chamber containers comprising same, wherein the lipid emulsion contains glycerophosphorylcholine as a choline source. The present disclosure further relates to methods of providing choline to a patient in need of parenteral nutrition and methods of avoiding and/or treating choline deficiency and liver damage.

A topical flavor composition comprising at least one hydrophilic flavor compound and at least one lipophilic flavor compound, the flavor composition being a water-in-oil emulsion having a continuous non-aqueous phase and a disperse aqueous phase, the at least one lipophilic flavor compound being dissolved or dispersed in the continuous phase and the at least one hydrophilic flavor compound dissolved or dispersed in the disperse phase. The composition is useful for topical application to a wide variety of comestible products and allows highly versatile flavoring possibilities.

Disclosed herein are stabilized powder and aqueous formulations comprising a phospholipid comprising omega fatty acid and a micelle-forming surfactant. In one embodiment, the formulation further comprises a water soluble reducing agent, and/or a metal chelator, and/or a metal bisulfite reducing agent, or combinations thereof, wherein the formulation remains substantially clear and stable when stored at or below room temperature for a period of at least 6 months or at least 12 months; and methods for preparing these formulations.

A food composition in the form of a water-in-oil-in-water emulsion, the food composition comprising water, an oil phase comprising vegetable oil and fat crystals, and an oil-in-water emulsifier, and a process for preparing the same.

The present invention relates to compositions comprising particles prepared from one or more biological materials and/or animal lipids and/or plant lipids that are capable of locating to an interface when combined with two or more immiscible liquids. Emulsions comprising the compositions comprising particles, wherein the emulsion has an internal phase dispersed in a continuous external phase and the particles are located at the interface of the external and the internal phase, methods of preparing such compositions and emulsions, the use of such compositions and emulsions and products containing the compositions and emulsions are also described.

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.

Nutritional formulas comprising long-chain polyunsaturated fatty acids (LC-PUFAs) are provided, along with methods and devices for preparing and/or administering nutritional formulas. In some embodiments, a percentage of the LC-PUFAs in the nutritional formula are in the form of monogiycerides and/or free fatty acids. In some embodiments, the nutritional formulas do not comprise added lipase. Also provided are methods for providing nutrition to a subject, methods for improving fat absorption, methods for improving cognitive ability, methods for preventing chronic lung disease, and methods for reducing the length of time a patient requires total parenteral nutrition.