Provided herein is a process for increasing the dissolution rate of a sparingly water soluble flavor or taste modifying compound in water comprising: a. mixing the compound and a highly water soluble second compound in a water based solution to form a solution or dispersion of the compound; and b. drying the solution or dispersion to form a solution or solid dispersion of the compound wherein the compound has an increased dissolution rate in water as compared to the compound when dissolved in water alone.

Salt formulations, which are resistant to moisture and cooking conditions, are described herein. The formulations provide particles of micronutrients and vitamins encapsulated within heat resistant pH-sensitive water-insoluble polymers, which are packaged within a salt shell. The pH-sensitive, water-insoluble, thermally stable materials stabilize the micronutrients, particularly at high temperatures, such as during food preparation and cooking, and release the micronutrients at the desired locations such as the stomach, small intestine, etc. Preferred pH-sensitive polymers release at a low pH, less than the pH present in the stomach. The particles can be used to deliver daily-recommended doses of micronutrients simultaneously with salt, eliminating the need for vitamin pills. This is particularly important in populations suffering from severe malnutrition.

A chewing gum component for use in a chewing gum composition is provided including a component body and a plurality of regions of at least one active ingredient encapsulated within an encapsulating material. The plurality of regions is disposed within said component body. Less than 15% of an average active concentration in said component body is in contact with an exterior surface of said component body.

Methods of preparing a delivery system are described. Each method uses a first and second printing materials. The second printing material contains an active material such as a fragrance, flavor, malodor counteracting agent, and mixture thereof.

Methods of preparing a delivery system are described. Each method uses a first and second printing materials. The second printing material contains an active material such as a fragrance, flavor, malodor counteracting agent, and mixture thereof.

The present invention relates to a new process for the preparation of microcapsules. Microcapsules obtainable by said process are also an object of the invention. Perfuming compositions and consumer products comprising said capsules, in particular perfumed consumer products in the form of home care or personal care products, are also part of the invention.

A drinking straw having an internal coating for delivery of an active agent when the straw is used to consume a beverage is provided. The active agent includes sweetener, flavour, a nutrient and/or a pharmaceutical and optionally colour. The coating is prepared by mixing a modified cellulose with water to form a paste or gel. The coating is then used to coat the inside sur face of a drinking straw to a thickness of up to 1 mm. The coating is dried to reduce the water content to less than 5% by weight. Li quid drawn through the straw breaks down the modified cellulose releasing the active agent into the liquid, for consumption.

The present invention includes compositions and methods of making films, adhesive patches, or composites comprising a polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer (PCL-PVAc-PEG) and a partially hydrophilic oil, wherein the composition transitions from a viscous liquid, to an adhesive, and to a film as a weight percent (wt %) ratio of PCL-PVAc-PEG to partially hydrophilic oil changes.

The present disclosure is directed to edible organogel compositions that comprise an organogelator and a flavor component, and processes for preparing the organogel compositions. The organogelator is ethyl cellulose or a combination of ethyl cellulose and an edible wax, preferably candelilla wax, rice bran wax, carnauba wax, paraffin, beeswax, polyethylene wax or combinations thereof. The ethyl cellulose preferably has an average ethoxyl content of from 45.0% to 47.0% by weight of the ethyl cellulose or from 48.0% to 49.5% by weight of the ethyl cellulose. The organogel compositions may be included as the flavor component in confectionery products, such as chewing gums.

Disclosed is a microcapsule containing: (i) a microcapsule core having an active material, and (ii) a microcapsule wall formed of a first polymer and second polymer. The first polymer is a sol-gel polymer. The second polymer is gum arabic, purity gum ultra, gelatin, chitosan, xanthan gum, plant gum, carboxymethyl cellulose, sodium carboxymethyl guar gum, or a combination thereof. The weight ratio between the first and second polymer is 1:10 to 10:1. Also disclosed are processes for preparing the microcapsule and uses of the microcapsules in consumer products.