阅读说明：本技术 一种多肽微针及其制备方法 (Polypeptide microneedle and preparation method thereof ) 是由 丁文锋 于 2020-12-30 设计创作，主要内容包括：本发明公开一种多肽微针及其制备方法,所述微针包括基座和固定在基座上的针体,所述基座由高分子材料制成,所述高分子材料选自聚乙烯醇、聚羧甲基纤维素、硫酸软骨素、聚乳酸聚乙醇酸共聚物、蚕丝蛋白、糊精、透明质酸或明胶；所述针体由以下原料组成：生物活性美容多肽、透明质酸、去离子水。本发明所述微针的制备方法简单,成本低廉,适合大批量生产,可广泛应用于美容多肽领域,具有祛皱抗衰、祛痘修复、美白祛斑、舒缓抗敏、祛除眼袋或生发固发的优异效果。(The invention discloses a polypeptide microneedle and a preparation method thereof, wherein the microneedle comprises a base and a needle body fixed on the base, the base is made of a high polymer material, and the high polymer material is selected from polyvinyl alcohol, polycarboxymethyl cellulose, chondroitin sulfate, polylactic acid-polyglycolic acid copolymer, fibroin, dextrin, hyaluronic acid or gelatin; the needle body is composed of the following raw materials: bioactive cosmetic polypeptide, hyaluronic acid, and deionized water. The microneedle is simple in preparation method and low in cost, is suitable for mass production, can be widely applied to the field of beauty polypeptide, and has excellent effects of removing wrinkles, resisting aging, removing acne, repairing, whitening, removing freckles, relieving, resisting allergy, removing under-eye puffiness or growing and strengthening hair.)

1. The polypeptide microneedle is characterized by comprising a base and a needle body fixed on the base, wherein the base is made of a high polymer material, and the high polymer material is selected from polyvinyl alcohol, poly carboxymethyl cellulose, chondroitin sulfate, polylactic acid-polyglycolic acid copolymer, fibroin, dextrin, hyaluronic acid or gelatin; the needle body is composed of the following raw materials: bioactive cosmetic polypeptide, hyaluronic acid, and deionized water.

2. The polypeptide microneedle according to claim 1, wherein the bioactive cosmetic polypeptide is selected from the group consisting of a polypeptide having wrinkle-removing and anti-aging effects, a polypeptide having acne-removing and repairing effects, a polypeptide having whitening and freckle-removing effects, a polypeptide having soothing and anti-allergy effects, a polypeptide having pouch-removing effects, and a polypeptide having hair-growing and hair-strengthening effects.

3. The polypeptide microneedle according to claim 2, wherein the polypeptide having wrinkle-removing and anti-aging effects comprises tripeptide-1, acetyl hexapeptide-8, acetyl octapeptide-3, dipeptide diaminobutyryl benzylamide diacetate, β -alanyl hydroxyproline diaminobutyryl benzylamide, palmitoyl pentapeptide-4, palmitoyl tetrapeptide-7, carnosine, tripeptide-1 copper, palmitoyl tripeptide-1, palmitoyl tripeptide-5, palmitoyl oligopeptide, hexapeptide-9, hexapeptide-11, or a combination thereof, and the concentration of each of the polypeptides having wrinkle-removing and anti-aging effects is 0.0001% to 5% by mass.

4. The polypeptide microneedle according to claim 2, wherein the polypeptide having the acne-removing repairing effect comprises myristoyl hexapeptide-5, myristoyl hexapeptide-23, tetrapeptide-1, antibacterial pentadecapeptide (VKRWKKWRWKWKKWV), hexapeptide-9, palmitoyl pentapeptide-4, or a combination thereof, and the mass percentage concentration of each polypeptide having the acne-removing repairing effect is 0.0001% -5%.

5. The polypeptide microneedle according to claim 4, wherein the needle body of the microneedle further comprises salicylic acid, and the salicylic acid is 1-3% by mass.

6. The polypeptide microneedle according to claim 2, wherein the polypeptide having the effects of whitening and removing freckles comprises nonapeptide-1, tetrapeptide-27, decapeptide-12, hexapeptide-2, carnosine, glutathione, or a combination thereof, and the mass percentage concentration of each polypeptide having the effects of whitening and removing freckles is 0.0001-5%.

7. The polypeptide microneedle according to claim 2, wherein the polypeptide having soothing and anti-allergy effects comprises palmitoyl tripeptide-8, acetyl tetrapeptide-15, acetyl tetrapeptide-40, acetyl dipeptide-1 cetyl ester, acetyl hexapeptide-49, or a combination thereof, and the concentration of each of the polypeptides having soothing and anti-allergy effects is 0.0001% to 5% by mass.

8. The polypeptide microneedle according to claim 2, wherein the pouch-removing polypeptide comprises acetyl tetrapeptide-5, palmitoyl tetrapeptide-7, dipeptide-2, palmitoyl tripeptide-1, palmitoyl pentapeptide-4, or a combination thereof, and the concentration of each pouch-removing polypeptide is 0.0001% to 5% by mass.

9. The polypeptide microneedle according to claim 2, wherein the polypeptide having hair growth and hair-care effects comprises tripeptide-1 copper, acetyl tetrapeptide-3, biotin tripeptide-1, myristoyl pentapeptide-17, myristoyl hexapeptide-16, or a combination thereof, and the concentration of each polypeptide having hair growth and hair-care effects is 0.0001% to 5% by mass.

10. The polypeptide microneedle according to any one of claims 1 to 9, wherein the microneedle has a frustum shape, an overall height of 100-500 μm, and a bottom end diameter of 200-400 μm; the height of the needle tip is 30-350 μm; the tip diameter is less than 100 μm, and the array density is 25-400 per square centimeter.

11. The method for preparing a polypeptide microneedle according to claim 1, wherein the method comprises the steps of:

(1) according to the mass percentage, 80 to 90 percent of hyaluronic acid, 0.0001 to 5 percent of bioactive cosmetic polypeptide and the balance of water are fully stirred and mixed evenly, and the needle body solution is obtained after vacuum defoaming treatment;

(2) according to the mass percentage, the needle body solution is poured into a female die, after the needle body solution fills the needle holes of the die, 1.0-1.5% of the polymer material aqueous solution is covered on the die containing the needle body solution, the drying is carried out for 8-12h at the temperature of 15-45 ℃ and the humidity of 30-50%, and the product is obtained after the demoulding.

12. A method of manufacturing a polypeptide microneedle according to claim 11, comprising the steps of:

(1) according to the mass percentage, 80-90% of hyaluronic acid, 0.0001-5% of polypeptide with acne-removing repairing function, 1-3% of salicylic acid and the balance of water are fully stirred and mixed uniformly, and a needle body solution is obtained after vacuum defoaming treatment;

(2) according to the mass percentage, the needle body solution is poured into a female die, after the needle body solution fills the needle holes of the die, 1.0-1.5% of the polymer material aqueous solution is covered on the die containing the needle body solution, the drying is carried out for 8-12h at the temperature of 15-45 ℃ and the humidity of 30-50%, and the product is obtained after the demoulding.

Technical Field

The invention belongs to the technical field of beauty polypeptide, and particularly relates to a polypeptide microneedle and a preparation method thereof.

Background

The bioactive cosmetic polypeptide generally has 2-10 amino acid residues, the molecular weight is 100-2000, and the hydrophilicity is strong. The skin has relative impermeability, the stratum corneum of the skin is a multi-layer lipid bilayer formed by lipid molecules, has compact structure and no blood vessels and lymphatic vessels, prevents the transdermal absorption of water-soluble drugs and high molecular lipophilic drugs, and is a main barrier for the transdermal absorption of functional components. Thus, transport of a partially hydrophilic polypeptide across a biological membrane is limited by its hydrophilicity and the barrier structure of the biological membrane. Although polypeptides have a high efficacy in skin remodeling, it is difficult to achieve the desired effect of some polypeptides under transdermal delivery conditions. The effectiveness of any polypeptide in a cosmetic product depends on the inherent activity of its components and the targeting of the active moiety, the former does not guarantee the effectiveness of each polypeptide on the skin, and the effectiveness is necessarily exerted by the fact that the polypeptide reaches an effective concentration on the skin and lasts for a sufficiently long time. Therefore, it is important to develop a technique for transdermal administration of a polypeptide in order to solve the above problems.

Recently, the micro-needle beauty treatment is increasingly carried out, the micro-needle can pierce the skin to form a micro-channel on the horny layer, and the beauty active ingredients reach the deep layer of the skin along the micro-channel and diffuse into the dermis. Due to the elasticity of the skin and the tiny size of the microneedle, the depth of the microneedle entering the skin usually cannot reach the dermis, obvious pain cannot be caused, and the microneedle is a painless permeation promoting technology. Microneedles are generally classified into 4 types, i.e., solid microneedles, coated microneedles, hollow microneedles, and soluble microneedles, and may be made of various materials, including metals, inorganic silicon, glass, polymers, and the like. The soluble microneedle technology has wide application space in the fields of medical cosmetology and skin care products.

Therefore, the microneedle technology is applied to the field of beauty polypeptide, a polypeptide microneedle is developed to painlessly promote penetration, so that the bioactive beauty polypeptide can fully exert the due effect, various skin problems are solved, and the microneedle has important significance.

Disclosure of Invention

In view of the drawbacks of the prior art, it is an object of the present invention to provide a polypeptide microneedle which is capable of dissolving hyaluronic acid constituting a needle body part under the action of body fluid after being applied to the skin, does not cause inflammatory reaction due to hyaluronic acid being an endogenous substance of the human body, and can perform a cosmetic effect. Along with the dissolution of hyaluronic acid, the bioactive cosmetic polypeptide encapsulated in the needle body part is gradually released, and the effects of removing wrinkles, resisting aging, removing acne, repairing, whitening, removing freckles, relieving, resisting allergy, removing under-eye puffiness or growing and consolidating hair are exerted.

The invention also aims to provide a preparation method of the polypeptide microneedle.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a polypeptide microneedle comprises a base and a needle body fixed on the base, wherein the base is made of a high polymer material, and the high polymer material is selected from polyvinyl alcohol, poly (carboxymethyl cellulose), chondroitin sulfate, polylactic acid-polyglycolic acid copolymer, fibroin, dextrin, hyaluronic acid or gelatin; the needle body is composed of the following raw materials: bioactive cosmetic polypeptide, hyaluronic acid, and deionized water.

The bioactive beautifying polypeptide is selected from polypeptide with wrinkle removing and anti-aging effects, polypeptide with acne removing and repairing effects, polypeptide with whitening and freckle removing effects, polypeptide with soothing and anti-allergy effects, polypeptide with eye pouch removing effects and polypeptide with hair growing and hair strengthening effects.

The polypeptide with the wrinkle-removing and anti-aging effects comprises tripeptide-1, acetyl hexapeptide-8, acetyl octapeptide-3, dipeptide diaminobutyryl benzylamide diacetate, beta-alanyl hydroxyproline diaminobutyryl benzylamide, palmitoyl pentapeptide-4, palmitoyl tetrapeptide-7, carnosine, tripeptide-1 copper, palmitoyl tripeptide-1, palmitoyl tripeptide-5, palmitoyl oligopeptide, hexapeptide-9, hexapeptide-11 or a combination thereof, wherein the mass percentage concentration of each polypeptide with the wrinkle-removing and anti-aging effects is 0.0001-5%.

The polypeptide with the acne-removing repairing function comprises myristoyl hexapeptide-5, myristoyl hexapeptide-23, tetrapeptide-1, antibacterial pentadecapeptide (VKRWKKWRWKWKKWV), hexapeptide-9, palmitoyl pentapeptide-4 or a combination thereof, wherein the mass percentage concentration of each polypeptide with the acne-removing repairing function is 0.0001-5%. In a preferred embodiment, the needle body of the acne-removing repairing polypeptide microneedle further comprises salicylic acid, and the mass percentage concentration of the salicylic acid is 1% -3%.

The polypeptide with the whitening and freckle-removing effects comprises nonapeptide-1, tetrapeptide-27, decapeptide-12, hexapeptide-2, carnosine, glutathione or a combination thereof, wherein the mass percentage concentration of each polypeptide with the whitening and freckle-removing effects is 0.0001-5%.

The polypeptide with the functions of relieving and resisting allergy comprises palmitoyl tripeptide-8, acetyl tetrapeptide-15, acetyl tetrapeptide-40, acetyl dipeptide-1 cetyl ester, acetyl hexapeptide-49 or a combination thereof, and the mass percentage concentration of each polypeptide with the functions of relieving and resisting allergy is 0.0001-5%.

The polypeptide with the function of removing the eye bags comprises acetyl tetrapeptide-5, palmitoyl tetrapeptide-7, dipeptide-2, palmitoyl tripeptide-1, palmitoyl pentapeptide-4 or a combination thereof, and the mass percentage concentration of each polypeptide with the function of removing the eye bags is 0.0001-5%.

The polypeptide with the hair growth and hair strengthening effects comprises tripeptide-1 copper, acetyl tetrapeptide-3, biotin tripeptide-1, myristoyl pentapeptide-17, myristoyl hexapeptide-16 or a combination thereof, and the mass percentage concentration of each polypeptide with the hair growth and hair strengthening effects is 0.0001-5%.

The polypeptide microneedle is in a frustum shape, the overall height is 100-; the height of the needle tip is 30-350 μm; the tip diameter is less than 100 μm, and the array density is 25-400 per square centimeter.

The preparation method of the polypeptide microneedle comprises the following steps:

(1) according to the mass percentage, 80 to 90 percent of hyaluronic acid, 0.0001 to 5 percent of bioactive cosmetic polypeptide and the balance of water are fully stirred and mixed evenly, and the needle body solution is obtained after vacuum defoaming treatment;

(2) according to the mass percentage, the needle body solution is poured into a female die, after the needle body solution fills the needle holes of the die, 1.0-1.5% of the polymer material aqueous solution is covered on the die containing the needle body solution, the drying is carried out for 8-12h at the temperature of 15-45 ℃ and the humidity of 30-50%, and the product is obtained after the demoulding.

In a preferred embodiment, the method for preparing the polypeptide microneedle comprises the following steps:

(1) according to the mass percentage, 80-90% of hyaluronic acid, 0.0001-5% of polypeptide with acne-removing repairing function, 1-3% of salicylic acid and the balance of water are fully stirred and mixed uniformly, and a needle body solution is obtained after vacuum defoaming treatment;

(2) according to the mass percentage, the needle body solution is poured into a female die, after the needle body solution fills the needle holes of the die, 1.0-1.5% of the polymer material aqueous solution is covered on the die containing the needle body solution, the drying is carried out for 8-12h at the temperature of 15-45 ℃ and the humidity of 30-50%, and the product is obtained after the demoulding.

Compared with the prior art, the invention has the advantages that:

1. the polypeptide microneedle provided by the invention can pierce the skin, hyaluronic acid forming the needle body part is dissolved under the action of body fluid, inflammatory reaction cannot be caused due to the fact that hyaluronic acid is an endogenous substance of a human body, the hyaluronic acid is harmless to the human body, and the hyaluronic acid has a water replenishing effect in the skin, so that the beautifying effect can be improved; along with the dissolution of hyaluronic acid, the bioactive cosmetic polypeptide encapsulated in the needle body part is gradually released, plays a synergistic effect, and efficiently solves a series of skin problems of wrinkle removal, anti-aging, acne removal, repair, whitening, freckle removal, soothing, anti-allergy, pouch removal, hair growth, hair strengthening and the like.

2. The micro-wound caused by the polypeptide microneedle does not cause scars, but can stimulate the regeneration of the skin and activate the epidermal cells of the human body, thereby repairing the skin of the human body; can effectively avoid pain and infection caused by local injection for beauty treatment, and is safe and reliable.

3. The microneedle provided by the invention has the advantages of simple preparation method and low cost, is suitable for mass production, and can be widely applied to the field of beauty polypeptide.

Detailed Description

For a better understanding of the present invention, the following detailed description of the invention is given in conjunction with examples, however, it should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

EXAMPLE 1 preparation of wrinkle-removing anti-aging polypeptide microneedle

1.1 preparation of needle body solution

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of acetyl hexapeptide-8, 0.005 percent of beta-alanyl hydroxy prolyl diamino butyryl benzylamide and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

1.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

1.3 preparation of wrinkle-removing and anti-aging polypeptide microneedle

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 2 preparation of acne-removing repair polypeptide microneedle

2.1 preparation of needle solutions

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of myristoyl hexapeptide-23, 0.0015 percent of hexapeptide-9 and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

2.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

2.3 preparation of acne-removing repairing polypeptide microneedle

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 3 preparation of salicylic acid antibacterial peptide microneedles

3.1 preparation of needle body solution

According to the mass percentage, 80 percent of hyaluronic acid, 0.01 percent of myristoyl hexapeptide-23, 2 percent of salicylic acid and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

3.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

3.3 preparation of salicylic acid antibacterial peptide microneedle

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 4 preparation of polypeptide microneedle for whitening and removing freckles

4.1 preparation of needle body solution

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of nonapeptide-1, 0.1 percent of carnosine and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

4.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

4.3 preparation of whitening and freckle-removing polypeptide microneedle

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 5 preparation of soothing anti-allergy polypeptide microneedles

5.1 preparation of needle body solution

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of palmitoyl tripeptide-8, 0.01 percent of acetyl tetrapeptide-15 and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

5.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

5.3 preparation of soothing and anti-allergy polypeptide microneedle

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 6 preparation of polypeptide microneedle for removing pouch

6.1 preparation of needle body solution

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of acetyl tetrapeptide-5, 0.01 percent of dipeptide-2 and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

6.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

6.3 preparation of polypeptide microneedle for removing pouch

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

Example 7 preparation of polypeptide microneedles for Hair growth and Hair fixation

7.1 preparation of needle body solution

According to the mass percentage, 85 percent of hyaluronic acid, 0.01 percent of biotin tripeptide-1, 0.01 percent of myristoyl pentapeptide-17 and the balance of water are fully stirred, mixed and dissolved, and the needle body solution is obtained after vacuum defoaming treatment.

7.2 preparation of base solutions

Adding hyaluronic acid into water according to the mass percentage, stirring and dissolving to obtain a solution with the mass fraction of 1.5%, and carrying out vacuum defoaming treatment to obtain a base solution.

7.3 preparation of polypeptide microneedle for promoting and strengthening hair growth

And (3) pouring the needle body solution into a female die, covering the base solution on the die containing the needle body solution after the needle body solution fills the pin holes of the die, drying for 10 hours at the temperature of 25 ℃ and the humidity of 30%, and demolding to obtain the needle body solution.

The polypeptide microneedle is in a frustum shape, the overall height is 100-; the height of the needle tip is 30-350 μm; the tip diameter is less than 100 μm, and the array density is 25-400 per square centimeter.

Comparative example 1 acne-removing repair polypeptide essence

Prescription

The preparation method comprises the following steps:

adding the sodium hyaluronate of the formula amount into water, stirring to uniformly mix, heating to 80-85 ℃, and keeping the temperature and stirring to uniformly disperse the sodium hyaluronate. Cooling to below 40 deg.C, adding glycerol, Aloe gel, myristoyl hexapeptide-23, hexapeptide-9, ceramide 3, octyl glycerol and 1, 2-hexanediol, and stirring. Adjusting pH of the solution to about 5.5 with 15% triethanolamine.

Comparative example 2 preparation of salicylic acid antibacterial peptide essence

Prescription

The preparation method comprises the following steps:

adding the sodium hyaluronate of the formula amount into water, stirring to uniformly mix, heating to 80-85 ℃, and keeping the temperature and stirring to uniformly disperse the sodium hyaluronate. Cooling to below 40 deg.C, adding glycerol, Aloe gel, myristoyl hexapeptide-23, salicylic acid, ceramide 3, octyl glycol and 1, 2-hexanediol, and stirring. Adjusting pH of the solution to about 5.5 with 15% triethanolamine.

Comparative example 3 preparation of whitening and freckle-removing polypeptide essence

Prescription

The preparation method comprises the following steps:

adding the sodium hyaluronate of the formula amount into water, stirring to uniformly mix, heating to 80-85 ℃, and keeping the temperature and stirring to uniformly disperse the sodium hyaluronate. Cooling to below 40 deg.C, adding glycerol, aloe gel, nonapeptide-1, carnosine, ceramide 3, octyl glycol and 1, 2-hexanediol, and stirring. Adjusting pH of the solution to about 5.5 with 15% triethanolamine.

Example 8 mechanical Property testing of polypeptide microneedles

The mechanical property of the polypeptide microneedle is characterized by measuring the axial strength of the single microneedle by using a mechanical tester (dynamometer).

A single microneedle prepared in example 1 was placed with its tip facing up on a physical property analyzer test table at room temperature, and then a stress was vertically applied to the single microneedle by a dynamometer probe at a speed of 0.5 mm/min. The probe contacts the highest point of the microneedle, the testing machine starts to display the compressive force, a displacement-stress change curve is measured, the compressive stress rapidly rises along with the increase of the compressive displacement, when the stress suddenly drops, the stress is the axial critical maximum stress borne by the microneedle, and the recorded compressive stress value is the fracture stress of the microneedle.

The single needle breaking stress of the polypeptide microneedle prepared in the embodiment 1 is 0.25-0.4N, which is greater than the minimum stress of 0.1N required for puncturing the stratum corneum of the human skin, and the stress requirement for puncturing the human skin is met.

Example 9 skin penetration Performance of polypeptide microneedles

Because the physiological structure of the pig skin is similar to that of the human skin, the puncture performance is investigated by replacing the human skin with the pig skin.

Spreading the pig skin on the foam with stratum corneum facing outward, and drying the water on the skin surface with absorbent paper. The microneedle tips of the microneedles of example 1 were perpendicularly inserted into the skin layer of the pigskin, the back of the microneedles was pressed with a hand for 5min, and then stained with 0.2% trypan blue for 2h, the surface of the pigskin was washed clean with 0.9% physiological saline, and the number of stained pinholes was observed and counted under an optical microscope.

The results show that the effective skin pricking rate of the pigskin is 99% after the polypeptide microneedle of the example 1 is acted, which indicates that the polypeptide microneedle of the invention has enough hardness to pierce the stratum corneum of the skin and enter the skin so as to realize the delivery of the bioactive cosmetic polypeptide.

Example 10 acne treatment efficacy test

10.1 Condition of the subject

150 subjects were selected, aged between 20-35 years, each with acne.

10.2 test design

Each group of 30 persons was randomly divided into 5 groups, and after washing the face every night, the test area of the subject was photographed at D0, D4 using example 2, example 3, comparative example 1, comparative example 2, placebo (PBS buffer) for 3 consecutive days, and the inflammatory condition and the altitude data of acne were analyzed.

10.3 test results

The results of the tests on each test sample before use (D0) and after 3 days of use (D4) are shown in table 1 below.

Table 1 acne treatment efficacy test results

Note: the Erthema erythema index indicates the degree of inflammation, and the greater the value, the more severe the inflammation.

As can be seen from the results in the table, each of the groups of example 2, example 3, comparative example 1, and comparative example 2 had good anti-acne efficacy relative to the placebo group. Under the condition that the concentrations of the used polypeptides are consistent, after the polypeptides are used for 3 days, the inflammation area of the group in the example 2 is reduced by 56.27%, the Erthema erythema index is reduced by 22.11%, the acne height is reduced by 81.14%, each index is obviously superior to that of the comparative example 1, the acne removing effect of the group in the example 2 is obviously better than that of the group in the comparative example 1, after the bioactive cosmetic polypeptides are prepared into microneedles, the polypeptides can be directly delivered into the interior of the skin, the influence of the skin barrier is overcome, the full play of the polypeptide effect is facilitated, and therefore the acne removing effect is better than that of the conventional smearing. Similarly, example 3 has a better acne removal effect than comparative example 2, which indicates that the polypeptide microneedle can increase the transdermal absorption of the active polypeptide, so that the polypeptide can fully exert its due efficacy.

Example 11 whitening and freckle removing efficacy test

11.1 Condition of the subject

90 subjects were selected, aged 33-55 years, each with at least one dark spot on their face.

11.2 design of the experiment

Each group of 30 persons used example 4, comparative example 3, placebo (PBS buffer) twice a day for 14 consecutive days.

The subject's pigmented spots were photographed at D0 and D14 using skin imaging equipment, and the L, ITA and M values of the pigmented spots were analyzed.

L value: refers to the luminance value observed by the subject in comparison with a white-black reference, where L is the range of luminance from black (L-0) to white (L-100). The larger the value, the better the whitening and spot-removing effect.

ITA ° values: the larger the value, the better the whitening and spot-removing effect.

M value: the smaller the value, the better the whitening and spot-removing effect.

11.3 test results

The results of the tests on the respective test samples at D0 and D14 are shown in Table 2 below.

TABLE 2 whitening and speckle removing efficacy test results

The results in the table show that, after the placebo group is used for 14 days, the skin color brightness of the subjects is not changed greatly, while the skin color brightness of the subjects in the examples 4 and 3 is obviously improved, particularly, the L value of the subject in the example 4 is increased by 10.56%, the ITA ° value is increased by 38.70%, and the M value is reduced by 26.13%, so that each index is obviously superior to that of the subject in the comparative example 3, which shows that the whitening and freckle removing effects of the example 4 are obviously better than those of the subject in the comparative example 3, and after the bioactive cosmetic polypeptide is prepared into the microneedle, the polypeptide can be directly delivered into the skin, the influence of the skin barrier is overcome, the polypeptide effect is favorably exerted fully, and the skin whitening and freckle removing effects are better than those of the conventional smearing.

The foregoing is a more detailed description of the present invention in connection with specific preferred embodiments thereof, and is not intended to limit the invention to the particular forms disclosed. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.