A vegetable substance-made synthetic egg includes a vegetable substance-made synthetic egg powder that is in a dry form and packed in an enclosed form. To use, water of a predetermined ratio is uniformly mixed with the egg powder made of vegetable substance to make an egg liquid that is heatable and cookable to make egg cuisines of scrambled egg and fried egg, and as such, mimicking of an actual egg can be realized as being made close to the actual egg in respect of taste and quality and containing zero cholesterol and allowing for easy carrying, storing, and cooking. A composition of the egg powder made up of vegetable substances includes at least 50.00% of rice protein, 5.00% of gellan gum, 1.50% of sodium alginate, 0.50% of calcium lactate, 0.10% of lutein, 3.00% of yeast powder, 5.00% of xanthan gum and 31.90% of corn flour, and 3.00% of edible salt.

A liquid egg analog has a composition comprising water, lupin protein, pea protein, oil, high acyl and low acyl gellan gum, tetrasodium pyrophosphate, isomaltooligosaccharide, acidulant, and divalent cations of magnesium and calcium. A method of preparing the liquid egg analog combines water, lupin protein and pea protein to produce a protein mix, combines water and gellan gums to produce a gel mix, and combines the protein mix and gel mix with the remaining ingredients to produce a combined mixture. The combined mixture may then be pasteurized, cooled and bottled.

Disclosed in certain embodiments is a delayed release softgel capsules comprise a fill material that is encapsulated in a pH dependent shell composition, the pH dependent shell composition including pectin and gellan gum. Also disclosed are methods of preparing any of the delayed release softgel capsules described herein and methods of use thereof.

The present invention relates to an enteral sustained-release sugar alcohol additive including an inner layer structure and an outer layer structure. The inner layer structure contains components of xylitol and agar, and the outer layer structure contains components of carrageenan or gellan gum or xanthan gum or guar gum, vitamin B12, L-arabinose, and fermented bifidobacterium or fermented propionibacterium or fermented lactobacillus. The present invention further provides a method of preparing an enteral sustained-release sugar alcohol additive and an application thereof. In the present invention, by compounding xylitol, L-arabinose and vitamin B12, directional regulation of intestinal microorganisms can be achieved and high concentration synthesis of propionate in the intestine can be realized.

Use of high acyl gellan in whipping cream.

A method for preparing a liquid dietary supplement includes extracting kavalactones from a Kava plant, heating water to approximately 160° Fahrenheit, and mixing kavalactones with sugar in a 1:2 ration creating a Kava/sugar mixture. The method also includes pouring Kava/sugar and heated water into a mixer, mixing, for approximately twenty (20) minutes, and pumping mixed Kava/sugar through a filter bag generating a slurry. Further the method includes adding the slurry to water heated to 55° Fahrenheit and agitating the slurry and the water heated to 55° with a mixer.

There is provided a method of manufacturing a nutritional composition comprising carbohydrate in an amount of at least 250 g l.sup.−1 of composition. The method comprises the steps of: (i) combining a first gelling agent and water, (ii) heating the mixture produced in step (i) to a temperature of between 60° C. and 100° C.; (iii) combining a second gelling agent with the heated mixture of step (ii) with mixing; and (iv) maintaining the mixture produced in step (iii) at a temperature of between 70° C. and 100° C. for between 10 and 120 minutes; with a carbohydrate component being combined with the mixture during one or more of said steps. Also provided is a nutritional composition.

Described herein is an innovative composition that improves sleep quality. This composition includes two important systems: 1) a sleep-inducing system that is being used for the first time in food and beverage products; and 2) a unique stabilizer system that provides a robust rheology and greater stability than other stabilizers. The two systems can be incorporated, individually or in combination, into food and beverage products, including but not limited to protein shakes and powders. Together, they enable this composition to aid in relaxation and optimal sleep quality, better sensory taste experiences than current market products, longer shelf life and robust stability. This disclosure also addresses a relevant need in the art for a beverage composition that promotes calmness and reduces stress by using natural ingredients, more specifically made from milk casein. In summary, the sleep-inducing RTD (ready-to-drink) and RTM (ready-to-mix) compositions described herein include a stabilizer composition that improves shelf-life stability and contributes to enhanced specific sensory attributes without any adverse effects.

The present invention provides a food composition that makes it possible to effectively conduct mastication and swallowing training. The food composition contains a starch, a gelling agent, a paste, and water, the amount of the water contained in the composition being 65 wt % or more and less than 90 wt %, the total amount of the starch, the gelling agent, the paste, and the water being 85 to 100 wt %, the composition having a fracture stress of 20,000 to 70,000 N/m.sup.2.

A liquid dietary fiber product includes dietary fiber in an aqueous liquid at a concentration of at least 5 g of the dietary fiber per 60 mL of the aqueous liquid. The dietary fiber is from at least three dietary fiber sources. A process of forming a single-serve liquid dietary fiber product includes combining dietary fiber with an aqueous liquid at a concentration of at least 5 g of the dietary fiber per 60 mL of the aqueous liquid to form a liquid dietary fiber product. The dietary fiber is from at least three dietary fiber sources. The process also includes sterilizing the liquid dietary fiber product and containing the liquid dietary fiber product in a single-serve packet to form the single-serve liquid dietary fiber product.