Making a salt substitute includes forming a salt substitute precursor, providing the salt substitute precursor to a centrifuge, and centrifuging the salt substitute precursor to yield a salt substitute in the form of a solid and a centrate. The salt substitute precursor includes water, a chloride salt, a food grade acid, and an anticaking agent. The chloride salt includes potassium chloride. A pH of the salt substitute precursor is between 2 and 4, and the salt substitute precursor is a saturated or supersaturated solution, a suspension, or a slurry. The salt substitute includes a chloride salt, a food grade acid, and an anticaking agent. The salt substitute includes potassium chloride and is in the form of a crystalline solid including at least 95 wt % of the chloride salt, up to 1 wt % of the food grade acid, and up to 1 wt % of the anticaking agent.

The invention relates to self-assembling microparticles comprising a solid matrix and probiotic bacteria, wherein the solid matrix comprises soybean protein and a divalent or trivalent metal, and wherein the probiotic bacteria are distributed throughout the solid matrix; said matrix protects said probiotic bacteria during processing, storage, as well as during transit through the gastrointestinal tract, thus prolonging their lifetime and facilitating release into the intestine and improving their probiotic effect. The present invention also relates to the method for obtaining the self-assembling microparticles and to the products and compositions incorporating them.

The invention relates to a process for preparing a hybrid coacervate capsule by mixing a first polymer with particles to form particle/polymer complexes; interacting a second polymer with the particle/polymer complexes to form a mixture comprising hybrid complex coacervates which contain particulate inclusions; and adding a core material to the mixture so that the hybrid complex coacervates deposit as a coating layer around the core material. The capsules form another embodiment of the invention.

The invention relates to a process for preparing a hybrid coacervate capsule by mixing a first polymer with particles to form particle/polymer complexes; interacting a second polymer with the particle/polymer complexes to form a mixture comprising hybrid complex coacervates which contain particulate inclusions; and adding a core material to the mixture so that the hybrid complex coacervates deposit as a coating layer around the core material. The capsules form another embodiment of the invention.

Beverage compositions and methods of preparing the same are provided herein. The beverage compositions can include calcium supplied from a calcium carbonate source including aragonite and a liquid component, such as water, a juice, a milk, and a combination thereof. Calcium components including aragonite particles and at least one additive agent as well as sweetener components including aragonite particles and at least one sweetener are also provided herein.

The present invention relates to ready-to-drink beverage products. In particular, the invention is concerned with a protein system induced by controlled aggregation of milk proteins which imparts outstanding sensory attributes and improved physical stability of the beverage product, in particular when containing low fat and/or low sugar. A method of producing such beverage and the products obtainable from the method are also part of the present invention.

A drink water treatment composition comprises a first edible, water-soluble salt that has a weight, e.g., between about 15% and about 25% by weight of the composition, and a second edible, water-soluble salt that has a weight, e.g., between about 65% and about 75% by weight of the composition and in admixture with the first edible, water-soluble salt. The composition can also include a third edible, water-soluble salt that has a weight, e.g., between about 5% and about 10% by weight of the composition and in admixture with the first and second edible, water-soluble salts. The mixture of edible, water-soluble salts is packaged in an effective amount to be mixed and dissolved in a reference amount of drinking water to re-mineralize the drinking water for human ingestion.

Beverage compositions and methods of preparing the same are provided herein. The beverage compositions can include calcium supplied from a calcium carbonate source including aragonite and a liquid component, such as water, a juice, a milk, and a combination thereof. Calcium components including aragonite particles and at least one additive agent as well as sweetener components including aragonite particles and at least one sweetener are also provided herein.

The present invention provides a novel proteolytic enzyme composition more particularly an orally administered proteolytic enzyme composition comprising of one or more acid proteases, one or more alkaline protease and one or more plant proteases. More particularly, the composition comprises of microbial (fungal, bacterial or other microbes) protease enzymes, proteases from plant and animals proteases thereof.

A dietary supplement composition includes a shelf stable, supercritical CO.sub.2 fluid extracted, enhanced lipidosterolic extract of Serenoa repens (LSESr) having about an enrichment of lauric, myristic, oleic and linoleic free fatty acids to total free fatty acids greater than about 82.0% and a ratio of free fatty acids to total fatty acids greater than about 80.08. A method of making the enhanced LSESr includes subjecting aged saw palmetto powder to supercritical CO.sub.2 extraction followed by first and second separations.