The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The invention relates to a microcapsule comprising at least one active substance selected from lutein and lutein esters embedded in a matrix comprising fish gelatine and optionally one or more other matrix components, wherein the content of said at least one active substance calculated as free lutein is from 0.5 to 25% of total weight of the microcapsule, and which microcapsule does not comprise any added emulsifier. The invention further relates to a process of preparing the microcapsule as well as uses and products comprising the microcapsule.

The invention relates to a microcapsule comprising at least one active substance selected from lutein and lutein esters embedded in a matrix comprising fish gelatine and optionally one or more other matrix components, wherein the content of said at least one active substance calculated as free lutein is from 0.5 to 25% of total weight of the microcapsule, and which microcapsule does not comprise any added emulsifier. The invention further relates to a process of preparing the microcapsule as well as uses and products comprising the microcapsule.

The invention relates to an orally administrable chewable composition in unit dosage form comprising an oil-in-water emulsion in which the aqueous phase is gelled and in which the oil phase comprises a physiologically tolerable unsaturated fatty acid ester.

The invention relates to an orally administrable chewable composition in unit dosage form comprising an oil-in-water emulsion in which the aqueous phase is gelled and in which the oil phase comprises a physiologically tolerable unsaturated fatty acid ester.

The present invention relates to a solid formulation comprising a carotenoid producing source bioorganism, which is storage stable, as well as the process of production of this formulation.

The present invention relates to a solid formulation comprising a carotenoid producing source bioorganism, which is storage stable, as well as the process of production of this formulation.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.

The present invention includes methods for producing an extruded food particle by extruding through an extruder having a screw within a barrel, a composition containing nutritional food components, and gelatin in an amount sufficient to act as a binder when the composition exits the extruder, where the binder has essentially no starch. The present invention also includes extruded food particles that do not use starch as a binder.