Methods of forming a gelatinous food product, forming a whitened food product, increasing viscosity, increasing water binding, emulsifying, or sweetening a food product, comprising combining paramylon from Euglena sp. with a food composition, to form the food product thereof. The disclosure also relates to methods of encapsulating an oil with paramylon, to form an encapsulated oil thereof.

Methods of forming a gelatinous food product, forming a whitened food product, increasing viscosity, increasing water binding, emulsifying, or sweetening a food product, comprising combining paramylon from Euglena sp. with a food composition, to form the food product thereof. The disclosure also relates to methods of encapsulating an oil with paramylon, to form an encapsulated oil thereof.

The present disclosure relates to rheology modified, low foaming aqueous antimicrobial compositions. The compositions are phase stable under acidic conditions, and do not need to be rinsed from the surface to which they are applied. The present disclosure further relates to methods of use thereof.

The present disclosure relates to rheology modified, low foaming aqueous antimicrobial compositions. The compositions are phase stable under acidic conditions, and do not need to be rinsed from the surface to which they are applied. The present disclosure further relates to methods of use thereof.

To inexpensively and easily provide a modified starch having a novel property.

A modified starch of which a particle diameter distribution waveform exhibits a single peak, wherein a 10 mass % paste liquid of the modified starch has an RVA peak viscosity that is 5% or less of the RVA peak viscosity of an unmodified starch serving as a raw material, and the difference between the maximum particle diameter and the minimum particle diameter is 2 μm or less. The modified starch is suitable for use as a food additive, a food texture improvement agent, a base material for powderization, a binder additive, a paper-making additive, a building material additive, etc.

To inexpensively and easily provide a modified starch having a novel property.

A modified starch of which a particle diameter distribution waveform exhibits a single peak, wherein a 10 mass % paste liquid of the modified starch has an RVA peak viscosity that is 5% or less of the RVA peak viscosity of an unmodified starch serving as a raw material, and the difference between the maximum particle diameter and the minimum particle diameter is 2 μm or less. The modified starch is suitable for use as a food additive, a food texture improvement agent, a base material for powderization, a binder additive, a paper-making additive, a building material additive, etc.

The invention relates to separated, decompacted, cellulose-based fibres acquired from a vegetable raw material, wherein the separated, decompacted, cellulose-based fibres have an aspect ratio after soaking in water of longitudinal diameter to transverse diameter of 1:1 to 1000:1 and a water-binding capacity of >200 wt. % and a water retention capacity of >50%, and a method for acquiring and producing these separated, decompacted cellulose-based fibres. The purification method involves incubation of the vegetable material with an aqueous decomposition solution containing at least one dissolved amino acid and/or peptide with 2-50 amino acids to decompose the compacted cellulose-based fibres.

The invention relates to separated, decompacted, cellulose-based fibres acquired from a vegetable raw material, wherein the separated, decompacted, cellulose-based fibres have an aspect ratio after soaking in water of longitudinal diameter to transverse diameter of 1:1 to 1000:1 and a water-binding capacity of >200 wt. % and a water retention capacity of >50%, and a method for acquiring and producing these separated, decompacted cellulose-based fibres. The purification method involves incubation of the vegetable material with an aqueous decomposition solution containing at least one dissolved amino acid and/or peptide with 2-50 amino acids to decompose the compacted cellulose-based fibres.

The invention relates to a liquid nutritional composition comprising (a) 2-25% by weight of a calcium-depleted milk protein concentrate (MPC) that has undergone a heat treatment to at least 80 C. and has between 15-45% by weight of the calcium removed; (b) 0-30% by weight fat; (c) 5-45% by weight carbohydrate; wherein the nutritional composition has a viscosity of less than 200 cP at a temperature of 20 C. and shear rate of 100s.sup.1, and has an energy density of at least 0.5 kcal/ml, and wherein protein provides 10-40% of the total energy content of the composition. Also provided is a powdered composition dispersible in water to form the liquid composition.

The invention relates to a liquid nutritional composition comprising (a) 2-25% by weight of a calcium-depleted milk protein concentrate (MPC) that has undergone a heat treatment to at least 80 C. and has between 15-45% by weight of the calcium removed; (b) 0-30% by weight fat; (c) 5-45% by weight carbohydrate; wherein the nutritional composition has a viscosity of less than 200 cP at a temperature of 20 C. and shear rate of 100s.sup.1, and has an energy density of at least 0.5 kcal/ml, and wherein protein provides 10-40% of the total energy content of the composition. Also provided is a powdered composition dispersible in water to form the liquid composition.