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.

Provided herein is a novel composition for oral administration and delivery of Noble gas, such as xenon or argon. Methods of treating and preventing neuronal or cardiovascular damage with such compositions are also provided.

Provided herein is a novel composition for oral administration and delivery of Noble gas, such as xenon or argon. Methods of treating and preventing neuronal or cardiovascular damage with such compositions are also provided.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture at for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture at for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

Provided are non-dairy yogurt analogs that have qualities similar to those of dairy-based yogurts. Certain embodiments are to plant-based yogurt analogs comprising fermented plant protein isolates and/or gelled plant protein isolates. Also provided are processes for production of such non-dairy yogurt analogs. For instance, a method for producing a plant-based yogurt mixture capable of being used to make a plant-based yogurt analog comprising the steps of: a) obtaining an essentially dairy-free base for a yogurt formulation that includes a plant-based derivative, such as a paste; and b) adding an acid to said formulation. Thereafter, the plant-based yogurt formulation may be used to manufacture a plant-based yogurt analog comprising the steps of: a) heating a plant-based yogurt mixture for a first pre-determined amount of time while stirring; b) allowing the mixture to cool; c) adding yogurt cultures to the resultant mixture; and d) incubating the resultant mixture for a second pre-determined amount of time to produce a plant-based yogurt analog.

The technology disclosed in this specification pertains to pulse protein-based emulsifiers comprising unhydrolyzed soluble pulse, or pea, or chickpea protein and a dissolved, unmodified amylopectin. Also disclosed in this specification are long term shelf stable egg-free emulsions and methods of their manufacture using the described pulse protein-based emulsifiers. Stability of the emulsion can be measured by reference to their small mean oil droplet size and reduced variability in mean oil droplet size over time.

A confectionery product includes: a center of a paste confectionary material including a semisolid fondant wherein a quantity of liquid syrup is less than a quantity of solid sugar crystals, and at least one compound able to hydrolyze sucrose to glucose and fructose; an intermediate layer of chewy candy material; and a layer of amorphous candy material. Also disclosed is a related multilayer confectionary item including such product.