The present invention relates to amorphous porous particles comprising sugar, a bulking agent and surfactant, having a closed porosity of between 20 to 60%. Further aspects of the invention relate to a food product comprising the amorphous porous particles; a process of making the amorphous porous particles and a fat based confectionery product containing them; and the use of the amorphous porous particles as bulk sugar replacers in food products such as fat based confectionery products for example, chocolate.

The present invention relates to amorphous porous particles comprising sugar, a bulking agent and surfactant, having a closed porosity of between 20 to 60%. Further aspects of the invention relate to a food product comprising the amorphous porous particles; a process of making the amorphous porous particles and a fat based confectionery product containing them; and the use of the amorphous porous particles as bulk sugar replacers in food products such as fat based confectionery products for example, chocolate.

The present invention provides a seaweed-based powder. The seaweed-based powder of the present invention has the advantage that it does not deleteriously impact, or it impacts to a lesser extent, the desired colour of a product containing thereof. In addition, the seaweed-based powder of the present invention has the capacity to produce gels having an optimum strength for the intended application. In particular, the invention provides a seaweed-based powder having an aerated bulk density (ABD) of at least 0.20 and a CIELAB L* value of at least 70.

The present invention provides a seaweed-based powder. The seaweed-based powder of the present invention has the advantage that it does not deleteriously impact, or it impacts to a lesser extent, the desired colour of a product containing thereof. In addition, the seaweed-based powder of the present invention has the capacity to produce gels having an optimum strength for the intended application. In particular, the invention provides a seaweed-based powder having an aerated bulk density (ABD) of at least 0.20 and a CIELAB L* value of at least 70.

Disclosed are powder solid compositions including a hydroalcoholic extract of Bergamot fruit (Citrus aurantium var. bergamia) and at least one phospholipid. Also disclosed is a process for the preparation of the compositions. The compositions are useful for the prevention and/or treatment of dysmetabolic syndromes, dyslipidemias and type 2 diabetes.

Disclosed are powder solid compositions including a hydroalcoholic extract of Bergamot fruit (Citrus aurantium var. bergamia) and at least one phospholipid. Also disclosed is a process for the preparation of the compositions. The compositions are useful for the prevention and/or treatment of dysmetabolic syndromes, dyslipidemias and type 2 diabetes.

The present patent application relates to novel red-orange coated particles, which are mainly used in (dry) formulations for instant beverages. The advantage of these coated particles is that they are red to orange as such (also in the formulations for instant beverages, wherein they can be identified by the naked eye as individual discrete colored particles), but upon dissolution of the instant beverage powder, the particles will dissolve as well and will not interfere with or change the intended color of the ready-to drink instant beverages made from the instant beverage dry powders.

The present patent application relates to novel red-orange coated particles, which are mainly used in (dry) formulations for instant beverages. The advantage of these coated particles is that they are red to orange as such (also in the formulations for instant beverages, wherein they can be identified by the naked eye as individual discrete colored particles), but upon dissolution of the instant beverage powder, the particles will dissolve as well and will not interfere with or change the intended color of the ready-to drink instant beverages made from the instant beverage dry powders.

An ultrasonic preparation method of protein peptide-polysaccharide nanoparticles loaded with bioactive components is conducted as follows: Chitosan solution containing 1% glacial acetic acid is added gently to the casein phosphopeptide solution containing quercetin stock solution in an equal volume under constant magnetic stirring; pH is adjusted accordingly before subjecting the mixture solution to ultrasonic treatment; after ultrasonication, the quercetin-loaded casein phosphopeptide-chitosan nanoparticles are obtained by freeze-drying. In the process of using the electrostatic interaction between the casein phosphopeptide and the chitosan to embed the quercetin, the present disclosure employed the multi-mode ultrasonic processing technology to facilitate the cross-linking of the polypeptide and the polysaccharide through the physical force of ultrasound. This enabled the complex encapsulation to incorporate additional bioactive components. The quercetin product exhibited excellent encapsulation efficiency, good water solubility, good light and thermal stability, and strong antioxidant properties, which significantly expanded the bioavailability of quercetin in the gastrointestinal tract.

An edible meat substitute product includes a fibrous mycelium mass in a range of 10 wt % to 100 wt %. The fibrous mycelium mass has a protein content greater than 40 wt % of a dry mass of the fibrous mycelium mass. The edible meat substitute product includes a water content in a range of 0 w % to 90 wt %.