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Shell material, nano-carrier and application thereof

A nano-carrier, shell material technology, applied in nanotechnology, nanotechnology, nanotechnology for materials and surface science, etc. Capacitance, skin adsorption, irritation, soothing and anti-allergic effect and reducing proliferation effect, etc., to achieve the effect of improving affinity, excellent daily chemical care effect, and reducing adverse proliferation effect

Active Publication Date: 2021-12-24
茵素科技(广州)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] The problems in the above research are: CN2020116376570 discloses the structure of liposomes used to accommodate water-soluble active substances, and the obtained liposomes are all liposome structures based on diol-type ginsenosides, CN201310155639. 2. The disclosed shell structures are all pure ginsenosides and do not contain other chemical components. The prepared pure ginsenoside nanomicelles are all neutral or weakly negatively charged nanomaterials. After research, their high-temperature long-term storage stability has certain challenges , unable to meet the needs of encapsulation, storage and release of stable oil-soluble active substances in cosmetics
[0010] Regarding ginsenoside secondary glycosides as the shell material, we have found through research that if the shell material is not optimized, its solubility compatibility in the system, skin adsorption, irritation, soothing and anti-allergic effects, reducing the membrane material itself as The effect of nutrients on the proliferation of bacteria is not up to the ideal level

Method used

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  • Shell material, nano-carrier and application thereof
  • Shell material, nano-carrier and application thereof
  • Shell material, nano-carrier and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0069] Take egg yolk lecithin: triol-type rare ginseng secondary glycosides as shown in general formula I: acetyl dipeptide-1 cetyl ester: coenzyme Q10 in a mass ratio of 1:1:1:1 and dissolve them together in absolute ethanol , stirred at room temperature for 1 h until completely dissolved, the total concentration of the prepared ethanol solution phase was 15 mg / mL, and then the prepared ethanol solution phase and anti-solvent deionized water were sucked into the syringe respectively. The prepared lecithin ginsenoside ethanol solution and deionized water are connected to the two channels of the multi-channel mixer through the digital syringe pump, and the access speed is optimal 5mL / min, the same deionized water is passed into the other two channels, the speed of which is preferably 45mL / min, and the obtained nano-micelle liquid flows out from the outlet and is received by a container.

[0070] Among them, R1 group is -O-Glc, R2 is

Embodiment 1-1

[0072] Take egg yolk lecithin: triol-type rare ginseng secondary glycosides as shown in general formula I: acetyl dipeptide-1 cetyl ester: coenzyme Q10 in a mass ratio of 1:0.1:0.1:1 and dissolve them together in absolute ethanol , stirred at room temperature for 1 h until completely dissolved, the total concentration of the prepared ethanol solution phase was 15 mg / mL, and then the prepared ethanol solution phase and anti-solvent deionized water were sucked into the syringe respectively. The prepared lecithin ginsenoside ethanol solution and deionized water are connected to the two channels of the multi-channel mixer through the digital syringe pump, and the access speed is optimal 5mL / min, the same deionized water is passed into the other two channels, the speed of which is preferably 45mL / min, and the obtained nano-micelle liquid flows out from the outlet and is received by a container.

[0073] Among them, R1 group is -O-Glc, R2 is

Embodiment 1-2

[0075]Take egg yolk lecithin: triol-type rare ginseng secondary glycosides as shown in general formula I: acetyl dipeptide-1 cetyl ester: coenzyme Q10 in a mass ratio of 1:0.1:1:1 and dissolve them together in absolute ethanol , stirred at room temperature for 1 h until completely dissolved, the total concentration of the prepared ethanol solution phase was 15 mg / mL, and then the prepared ethanol solution phase and anti-solvent deionized water were sucked into the syringe respectively. The prepared lecithin ginsenoside ethanol solution and deionized water are connected to the two channels of the multi-channel mixer through the digital syringe pump, and the access speed is optimal 5mL / min, the same deionized water is passed into the other two channels, the speed of which is preferably 45mL / min, and the obtained nano-micelle liquid flows out from the outlet and is received by a container.

[0076] Among them, R1 group is -O-Glc, R2 is

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Abstract

The invention belongs to the field of cosmetics, and discloses a shell material. The shell material comprises phospholipid, a peptide fatty acid derivative and triol type ginsenoside secondary glycoside, wherein the weight ratio of the phospholipid to the peptide fatty acid derivative to the triol type ginsenoside secondary glycoside is (0.1-100): (0.1-100): (0.1-100); the peptide fatty acid derivative comprises a polypeptide unit structure and contains one or more arginine or lysine units; and the polypeptide unit structure is one of dipeptide to pentapeptide. The shell material can be used as a shell layer of micelle and lipidosome to stably wrap and stably release lipophilic active substances and hydrophilic active substances, and shows excellent compatibility in a system; the precipitation phenomenon is obviously weakened; the positive and negative performance of charges on the surface of the shell material is easy to regulate and control; the cytotoxicity and skin irritation of the cosmetics are reduced; the adverse proliferation effect of the traditional shell material on harmful flora as nutrient substances is reduced; and the absorption effect of the skin on the active substances is improved. Meanwhile, the invention further discloses application of the micelle and the lipidosome.

Description

technical field [0001] The invention relates to the field of cosmetics, in particular to a shell material, a nano-carrier and uses thereof. Background technique [0002] CN2020116376570 discloses a liposome based on ginsenoside secondary glycosides, which contains phospholipids and diol type ginsenoside secondary glycosides as shown in formula (1); discloses a liposome loaded with active substances Liposome, the liposome loaded with active substances refers to the encapsulation of one or more active substances in cosmetics in liposomes based on diol-type ginsenoside secondary glycosides; the invention loads active substances The preparation method of the liposome of the substance, mixes the phospholipid and the ginsenoside secondary glycoside shown in formula (1) in an alcoholic organic solvent, then adds the active substance in the cosmetics, and evaporates under reduced pressure until the film is formed , and then use a phosphate buffer solution with a pH value of 7-8 as ...

Claims

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Application Information

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IPC IPC(8): A61K8/02A61K8/14A61K8/55A61K8/63A61K8/64A23L29/00A23L33/10B82Y30/00B82Y40/00A61Q19/00
CPCA61K8/553A61K8/64A61K8/63A61K8/14B82Y30/00B82Y40/00A61K8/0291A61Q19/00A23L29/04A23L29/045A23L29/035A23L33/10A61K2800/56A61K2800/10A23V2002/00A23V2200/30A23V2250/2124
Inventor 李东翠姜乃生徐炎明王兵青
Owner 茵素科技(广州)有限公司
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