The present disclosure belongs to the technical field of starch processing, and in particular relates to slowly digestible starch (SDS) and a preparation method and use thereof. The SDS includes a starch granule and a non-starch polysaccharide coating coated on a surface of the starch granule. In the present disclosure, the non-starch polysaccharide coating coated on the surface of the starch granule can prevent an amylase from contacting the starch granule, increasing contents of the SDS and resistant starch (RS) in the SDS. Therefore, the SDS can delay a digestion process, increase a digestion time of the starch, and reduce the increase of blood glucose and insulin levels after the starch is digested and absorbed.

The present disclosure belongs to the technical field of starch processing, and in particular relates to slowly digestible starch (SDS) and a preparation method and use thereof. The SDS includes a starch granule and a non-starch polysaccharide coating coated on a surface of the starch granule. In the present disclosure, the non-starch polysaccharide coating coated on the surface of the starch granule can prevent an amylase from contacting the starch granule, increasing contents of the SDS and resistant starch (RS) in the SDS. Therefore, the SDS can delay a digestion process, increase a digestion time of the starch, and reduce the increase of blood glucose and insulin levels after the starch is digested and absorbed.

The present invention relates to creamers for food products such as coffee and tea. In particular, the invention relates to a foaming liquid creamer that provides a foam layer when added to a beverage.

The present invention relates to creamers for food products such as coffee and tea. In particular, the invention relates to a foaming liquid creamer that provides a foam layer when added to a beverage.

The present disclosure provides component-containing extruded structures, which include various components entrapped within a base material matrix, and to products containing such component-containing extruded structures. The disclosure also includes a method for entrapping the components, including mixing the component or components with a base material in water, extruding the mixture, and removing at least a portion of the water therefrom. The resulting component-containing extruded structure can then be incorporated within various products, e.g., consumable products such as aerosol-generating devices and components, oral and smokeless products, and conventional smoking articles.

This invention is related to fat-free, starch-free protein food that can be processed into noodles, spherical and rice-similar shapes, which consist of 2 parts: the first part are boiled water, egg white powder and/or soy protein, and/or whey protein, and/or pea protein, and/or brown rice protein, and sodium alginate; and the second part are boiled water and calcium chloride concentration as solid gel agent. Fat-free, starch-free protein food in noodles form has 0.5-5 mm diameter, spherical and rice-similar shapes have 2-5 millimetres diameter. Protein foods can be substituted for noodles or glass noodles, or beverages and desserts. This product is a nutritious health food, a good choice for patients and those who want to supplement protein to be able to eat in a variety way and more appetizing.

This invention is related to fat-free, starch-free protein food that can be processed into noodles, spherical and rice-similar shapes, which consist of 2 parts: the first part are boiled water, egg white powder and/or soy protein, and/or whey protein, and/or pea protein, and/or brown rice protein, and sodium alginate; and the second part are boiled water and calcium chloride concentration as solid gel agent. Fat-free, starch-free protein food in noodles form has 0.5-5 mm diameter, spherical and rice-similar shapes have 2-5 millimetres diameter. Protein foods can be substituted for noodles or glass noodles, or beverages and desserts. This product is a nutritious health food, a good choice for patients and those who want to supplement protein to be able to eat in a variety way and more appetizing.

The present invention provides a foam body suitable for producing a cultured meat having a good texture. The foam body of the present invention includes alginic acid and/or an alginate. The foam body has an elastic modulus M, as determined by a test, of 8×10.sup.4 Pa or less. In the test, the foam body is immersed in 22±3° C. water for 4 hours to prepare a specimen having a post-immersion thickness of 5±1 mm. Stress and strain caused in the specimen are measured by applying a load to the specimen for 5 seconds to compress the specimen in a thickness direction at 0.5 mm/sec. A stress caused in the specimen when the specimen is compressed by 10% of an initial thickness is determined, and a value obtained by dividing the stress by a corresponding strain is determined as the elastic modulus M.

The present invention provides a foam body suitable for producing a cultured meat having a good texture. The foam body of the present invention includes alginic acid and/or an alginate. The foam body has an elastic modulus M, as determined by a test, of 8×10.sup.4 Pa or less. In the test, the foam body is immersed in 22±3° C. water for 4 hours to prepare a specimen having a post-immersion thickness of 5±1 mm. Stress and strain caused in the specimen are measured by applying a load to the specimen for 5 seconds to compress the specimen in a thickness direction at 0.5 mm/sec. A stress caused in the specimen when the specimen is compressed by 10% of an initial thickness is determined, and a value obtained by dividing the stress by a corresponding strain is determined as the elastic modulus M.

A method of producing a thickened carbonated beverage packed in a container, comprising: mixing an aqueous solution containing a first thickening agent and having a temperature of 0 to 35° C. with a second thickening agent insoluble in water in a temperature range of 0 to 35° C. but soluble in water at a temperature of 60° C. or more to obtain a stock liquid with the second thickening agent dispersed in the solution; dissolving carbon dioxide gas in the stock liquid to obtain a carbonated aqueous solution; filling a container with the carbonated aqueous solution and sealing the container to obtain the carbonated aqueous solution packed in the container; and heating the carbonated aqueous solution packed in the container such that the carbonated aqueous solution has a temperature of 60° C. or more to dissolve the second thickening agent in the solution.