The invention is directed to a nanoprecipitate comprising a cannabinoid or a terpene, or combination thereof, a process of preparing the nanoprecipitate, and oral formulations comprising the nanoprecipitate, including beverage additives and edibles.

The present patent application relates to novel polyunsaturated fatty acid salt (PUFA salts) solid formulations.

The present patent application relates to novel polyunsaturated fatty acid salt (PUFA salts) solid formulations.

The invention relates to a process for manufacturing a seamless breakable capsule, comprising co-extruding an external and hydrophilic liquid phase, and an internal and lipophilic liquid phase, in order to form a capsule constituted of a core comprising the internal and lipophilic phase, and a shell comprising the external and hydrophilic phase, immersing into an aqueous solution containing a curing agent, wherein the external liquid phase includes a gelling agent comprising gellan gum alone or in combination with another gelling agent, a filler, and a divalent metal sequestering agent, and to breakable capsules comprising a core and a shell, wherein the shell includes a gelling agent comprising gellan gum alone or in combination with another gelling agent, a filler, and a divalent metal sequestering agent.

The invention relates to a process for manufacturing a seamless breakable capsule, comprising co-extruding an external and hydrophilic liquid phase, and an internal and lipophilic liquid phase, in order to form a capsule constituted of a core comprising the internal and lipophilic phase, and a shell comprising the external and hydrophilic phase, immersing into an aqueous solution containing a curing agent, wherein the external liquid phase includes a gelling agent comprising gellan gum alone or in combination with another gelling agent, a filler, and a divalent metal sequestering agent, and to breakable capsules comprising a core and a shell, wherein the shell includes a gelling agent comprising gellan gum alone or in combination with another gelling agent, a filler, and a divalent metal sequestering agent.

Flavorants are emulsified in tobacco-derived lipids and encapsulated with biopolymers and polysaccharides. The emulsions include oil-in-water emulsions, oil-in-water-in-oil emulsions, water-in oil emulsions, or water-in-oil-in-water emulsions, and optionally include ethanol and/or propylene glycol in an oil phase.

Flavorants are emulsified in tobacco-derived lipids and encapsulated with biopolymers and polysaccharides. The emulsions include oil-in-water emulsions, oil-in-water-in-oil emulsions, water-in oil emulsions, or water-in-oil-in-water emulsions, and optionally include ethanol and/or propylene glycol in an oil phase.

Disclosed is a method for making and using insoluble, biodegradable, nanoparticles containing the omega-3 fatty acids EPA and DHA in selected ratios. Tests show a surprising effect that the nanoformulation is twice as potent and at least five times more sustained leading to at least tenfold (25) higher bioavailability at equal dose (1% v/v).

Disclosed is a method for making and using insoluble, biodegradable, nanoparticles containing the omega-3 fatty acids EPA and DHA in selected ratios. Tests show a surprising effect that the nanoformulation is twice as potent and at least five times more sustained leading to at least tenfold (25) higher bioavailability at equal dose (1% v/v).

Comestible products, for example beverage products, are disclosed containing encapsulated probiotic bacteria having resistance to subjection to at least thermal and acidic conditions. Beverage products include at least one aqueous liquid and capsules comprising a gelled mixture of alginate and denatured protein, and probiotic bacteria entrapped within the gelled mixture. The average particle size of the capsules is optionally less than 1000 microns (m) in diameter, such as less than 500 m in diameter. Methods are provided for making such encapsulated probiotics by providing a mixture comprising sodium alginate, denatured protein and active probiotic cells, and combining the mixture with a divalent cation to initiate cold gelation of the sodium alginate and denatured protein to form a second mixture. The second mixture is passed through an opening having a diameter of less than 1000 m to form capsules. The weight ratio of protein to alginate is from 1:1 to 9:1.