Disclosed herein are compositions and articles made therefrom, the compositions and articles comprising at least one hydrocolloid, at least one plasticizer, at least one filler and/or humectant and water. Typically, the components are derived from biological sources, such as seaweed, plants, or animals. Typically, the components are made from food quality ingredients, making the compositions and articles edible and/or biodegradable. The compositions are used to form articles, such as straws, and the articles have desirable flexibility and moisture barrier properties, such as swelling resistance, as well as biodegradability and/or compostability properties.

The invention provides a Probiotic microcapsule and a preparation method thereof, relating to the technical field of Probiotic products. The method includes the following steps: (a) preparing a capsule core containing Probiotics: mixing the capsule core materials including Probiotic powder, microcrystalline cellulose and starch, then adding a hydroxypropyl methylcellulose solution thereinto, while mixing evenly, making the obtained mixture materials into spherical particulate capsule cores by the extrusion spherization method; (b) coating by atomization: coating the microcapsule cores with a coating material solution in a single layer or multiple layers by atomization, getting core-shell microcapsules. The Probiotic microcapsules prepared by the present invention have a large encapsulation, uniform microcapsule particles, controllable particle size, storage-resistance, targetability to intestinal tracts, resistance to gastric acids and high temperature stability.

The invention provides a Probiotic microcapsule and a preparation method thereof, relating to the technical field of Probiotic products. The method includes the following steps: (a) preparing a capsule core containing Probiotics: mixing the capsule core materials including Probiotic powder, microcrystalline cellulose and starch, then adding a hydroxypropyl methylcellulose solution thereinto, while mixing evenly, making the obtained mixture materials into spherical particulate capsule cores by the extrusion spherization method; (b) coating by atomization: coating the microcapsule cores with a coating material solution in a single layer or multiple layers by atomization, getting core-shell microcapsules. The Probiotic microcapsules prepared by the present invention have a large encapsulation, uniform microcapsule particles, controllable particle size, storage-resistance, targetability to intestinal tracts, resistance to gastric acids and high temperature stability.

Disclosed herein are compositions and articles made therefrom, the compositions and articles comprising at least one hydrocolloid, at least one plasticizer, at least one filler and/or humectant and water. Typically, the components are derived from biological sources, such as seaweed, plants, or animals. Typically, the components are made from food quality ingredients, making the compositions and articles edible and/or biodegradable. The compositions are used to form articles, such as straws, and the articles have desirable flexibility and moisture barrier properties, such as swelling resistance, as well as biodegradability and/or compostability properties.

A lactobacillus fermentation composition includes mushroom extract, skim milk powder, fructooligosaccharide, gelatin hydrolyzate, and mixed lactobacillus strain.

A lactobacillus fermentation composition includes mushroom extract, skim milk powder, fructooligosaccharide, gelatin hydrolyzate, and mixed lactobacillus strain.

The invention is a nutritional composition in unit dosage form for oral administration to an animal or human, which includes at least one ingredient from each of six biological Kingdoms selected from the group consisting of animals, plants, fungi, bacteria, protist and archaea. Each ingredient is co-admixed with every other said ingredient without further addition of synthetic excipients or fillers, and is typically formulated in dried powder form as a drink mix, food or beverage additive or as the fill for hard or soft capsules or other dosage forms including tablets (the compositions of the invention can generally be tableted without addition of ingredients beyond the nutrients themselves).

The invention is a nutritional composition in unit dosage form for oral administration to an animal or human, which includes at least one ingredient from each of six biological Kingdoms selected from the group consisting of animals, plants, fungi, bacteria, protist and archaea. Each ingredient is co-admixed with every other said ingredient without further addition of synthetic excipients or fillers, and is typically formulated in dried powder form as a drink mix, food or beverage additive or as the fill for hard or soft capsules or other dosage forms including tablets (the compositions of the invention can generally be tableted without addition of ingredients beyond the nutrients themselves).

Disclosed herein is a process for making a thermogellable textured vegetable protein composition in the food forms of, for example, burgers, patties, balls, nuggets, sausages, and the like, which includes the steps of: providing a composition comprising a textured vegetable protein; providing a chitosan-based thermogellable binding mixture; and blending the plant-based meat analog ingredient and the chitosan-based thermogel mixture to form the thermogellable textured vegetable protein composition. In some aspects, the thermogellable binding mixture includes oil. The invention also includes compositions comprising a thermogellable textured vegetable protein composition, comprising a plant-based texturized protein, and a chitosan-based thermogellable binding mixture comprising chitosan, an acid source, an oil, and a base source.

Disclosed herein is a process for making a thermogellable textured vegetable protein composition in the food forms of, for example, burgers, patties, balls, nuggets, sausages, and the like, which includes the steps of: providing a composition comprising a textured vegetable protein; providing a chitosan-based thermogellable binding mixture; and blending the plant-based meat analog ingredient and the chitosan-based thermogel mixture to form the thermogellable textured vegetable protein composition. In some aspects, the thermogellable binding mixture includes oil. The invention also includes compositions comprising a thermogellable textured vegetable protein composition, comprising a plant-based texturized protein, and a chitosan-based thermogellable binding mixture comprising chitosan, an acid source, an oil, and a base source.