DUST-FREE COLD-WATER-DISPERSIBLE PREPARATIONS
20210153540 · 2021-05-27
Inventors
- Kathrin MEYER-BOEHM (Ludwigshafen am Rhein, DE)
- Andreas HABICH (Ludwigshafen am Rhein, DE)
- Daniel WAGNER (Lampertheim, DE)
- Wolf PELLETIER (Lampertheim, DE)
- Walter DOBLER (Ludwigshafen am Rhein, DE)
- Peter SCHORDING (Bubenheim, DE)
- Karl Kolter (Ludwigshafen am Rhein, DE)
Cpc classification
B01J13/02
PERFORMING OPERATIONS; TRANSPORTING
A61K2800/412
HUMAN NECESSITIES
A61K9/5073
HUMAN NECESSITIES
A23P10/47
HUMAN NECESSITIES
A61K8/671
HUMAN NECESSITIES
A61K8/0241
HUMAN NECESSITIES
A61K8/375
HUMAN NECESSITIES
International classification
A23P10/47
HUMAN NECESSITIES
Abstract
The present invention relates to dust-free preparations dispersible in cold water. These preparations consist of particles comprising water-insoluble or only sparingly water-soluble active substance(s), said particles being coated with one or more layers, the outermost layer comprising as principal component one or more hydrophobic powdering agents on which at least one dispersant is absorbed. The invention also relates to a process for producing these particles and to the use thereof in food supplements, foodstuffs, animal feeds, personal-care products, and medicaments.
Claims
1.-16. (canceled)
17. A particle comprising water-insoluble or only sparingly water-soluble active substance(s) that is coated with one or more layers, the outermost layer comprising as principal component one or more hydrophobic powdering agents on which at least one dispersant is absorbed.
18. The coated particle according to claim 17, in which the at least one dispersant has a contact angle against the surface of a pellet made of pure powdering agent, measured after 0.1 seconds and at 25° C., of 75° or less.
19. The coated particle according to claim 17, in which the at least one dispersant has an HLB value of 0.5 to 13.
20. The coated particle according to claim 17, in which the at least one dispersant comprises MCT oil and/or Lauroglycol and/or Lutensol.
21. The coated particle according to claim 17, in which the degree of coverage of the particle surface with hydrophobic powdering agent is at least 70%.
22. The coated particle according to claim 17, in which the degree of coverage of the particle surface with hydrophobic powdering agent is at least 80%.
23. The coated particle according to claim 17, in which the hydrophobic powdering agent is a hydrophobized finely divided oxide.
24. The coated particle according to claim 23, wherein the hydrophobic finely divided oxide is selected from the group consisting of the hydrophobized oxides of aluminum, silicon, zinc, and titanium.
25. The coated particle according to claim 24, in which the hydrophobized oxide is hydrophobized silica.
26. The coated particle according claim 23, in which the hydrophobic powdering agent has a surface area of at least 80 m.sup.2/g.
27. The coated particle according claim 23, in which the hydrophobic powdering agent has an average particle size of not more than 20 μm.
28. The coated particle according to claim 27, in which the hydrophobic powdering agent has an average particle size of 10 nm to 20 μm.
29. The coated particle according claim 25, wherein the at least one dispersant comprises MCT oil and in which the ratio of hydrophobized silica to MCT oil is 0.2 to 1.2 based on 100 g of particles.
30. A preparation consisting of the coated particles according to claim 17, said preparation having a dust value after 30 seconds of less than 10.
31. A process for producing particles according to claim 17, the process comprising the following steps: a) dissolving the water-insoluble or only sparingly water-soluble active substance(s) in a volatile, water-miscible organic solvent or in a mixture of water and a water-miscible organic solvent at temperatures between 50° C. and 200° C., optionally under elevated pressure, within a period of less than 10 seconds, b) rapidly mixing the solution obtained after a) with an aqueous or colloidally dispersed solution of a colloid at temperatures between 0° C. and 50° C., wherein the water-insoluble or only sparingly water-soluble active substance(s) is/are precipitated in colloidally dispersed form, c) spraying the colloidal dispersion with additional use of a hydrophobic powdering agent and converting this into a dry powder by removing the bulk of the solvent and then drying, and d) applying at least one dispersant to the free-flowing particles or a2) dissolving the water-insoluble or only sparingly water-soluble active substance(s) in a volatile, water-immiscible organic solvent at temperatures of 30 to 150° C., optionally under elevated pressure, b2) mixing the solution obtained after a) with an aqueous or colloidally dispersed solution of a colloid, forming an emulsion, c2) removing the organic solvent from the emulsion, adding hydrophobic powdering agent to the suspension/dispersion formed, and converting this into a dry powder by removing the water and then drying, and d2) applying at least one dispersant to the free-flowing particles.
32. A food supplement, foodstuff, animal feed, personal-care product, or medicament comprising the coated particles according to claim 17.
33. The coated particle according to claim 17, in which the at least one dispersant has an HLB value of 1 to 12.5.
34. The coated particle according to claim 17, in which the at least one dispersant has an HLB value of 1 to 5.
Description
EXAMPLE
[0060] 1. Astaxanthin, ascorbyl palmitate, and tocopherol are dissolved in an azeotropic mixture of water and isopropanol at a temperature of 100° C. to 200° C. and a pressure between 20 bar and 100 bar within a period of less than 10 seconds. [0061] 2. Sodium caseinate, glucose syrup, sodium ascorbate, and preservatives are dissolved in water. [0062] 3. The mixture from 2. is treated with approx. 1% NaOH. [0063] 4. The preparation from 1. and 2. is mixed at temperatures between 20° C. and 80° C., resulting in the astaxanthin precipitating and becoming encapsulated/enveloped. [0064] 5. Isopropanol and some of the water are removed in a multistage evaporation at pressures below atmospheric pressure, resulting in the formation of a 15 to 65 percent by weight (suspension) dispersion. [0065] 6. This dispersion is sprayed in together with hydrophobic silica at the head of a spray tower, resulting in the formation of fine droplets that are enveloped by hydrophobic silica. [0066] 7. Drying takes place in a downstream fluidized bed. [0067] 8. In the following step, MCT oil is sprayed on.
[0068] The coated free-flowing particles obtained as the end product in accordance with the invention have a dust value of 2.4 and a D50 of 170 μm. The silicon content is 1.4% and the MCT content is 2.4%, which corresponds to a ratio of Si in % to MCT in % of 0.58. The contact angle of the particles measured after 0.1 seconds and at 25° C. against the surface of a Sipernat D17 pellet is 54°.