COSMETIC METHOD

Abstract

The present invention provides a cosmetic method having an excellent secondary adhesion resistance effect. The cosmetic method of the present invention has a step of applying a cosmetic material on the skin, a step of pasting the base material film surface of a thin film on the skin, and a step of removing the support body of the pasted thin film, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

Description

RELATED APPLICATIONS

This application claims the priority of Japanese Patent Application No. 2012-227076 filed on Oct. 12, 2012, which is incorporated herein by reference.

FIELD OF THE INVENTION

The present invention relates to a cosmetic method having an excellent secondary adhesion resistance effect.

BACKGROUND OF THE INVENTION

In makeup cosmetics such as foundation, blusher, eye shadow, and lipstick, a large amount of a coloring agent such as pigment is blended. In order to realize a so-called secondary adhesion resistance effect in which such makeup cosmetics do not adhere to clothes, the blending of a film-forming agent such as silicone-modified polysaccharide compound, described in Patent Literature 1, has been known. However, the realization of the secondary adhesion resistance effect against rubbing has been difficult.

On the other hand, UV rays exert all sorts of harmful effects on the skin. Therefore, to protect the skin, various UV absorbers have been developed and used by blending them into external skin preparations. However, the further improvement of the UV absorption effect has been desired.

• Patent Literature 1: Japanese unexamined patent publication No. H10-29910

DISCLOSURE OF THE INVENTION

Problem to be Solved by the Invention

The present invention was made in view of the above-described conventional art. The problem to be solved is to provide a cosmetic method having an excellent secondary adhesion resistance effect. In addition, when sun care cosmetics such as non-aqueous emulsion sunscreen are used, a cosmetic method excellent in the UV absorption effect can be provided.

Means to Solve the Problem

The present inventors have diligently studied to solve the above-described problems. As a result, the present inventors have found that a cosmetic method, having a step of applying a cosmetic material on the skin, a step of pasting the base material film surface of a thin film on the skin, and a step of removing the support body of the pasted thin film, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body, has an excellent secondary adhesion resistance effect, thus leading to the completion of the present invention.

That is, the cosmetic method of the present invention has a step of applying a cosmetic material on the skin, a step of pasting the base material film surface of a thin film on the skin, and a step of removing the support body of the pasted thin film, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

In addition, the cosmetic method of the present invention has a step of applying a cosmetic material on the skin, a step of removing the support body of the thin film, and a step of pasting a base material film on the skin, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

In the above-described cosmetic method, it is preferable that the cosmetic is one or more cosmetic(s) selected from the group consisting of skin care cosmetic, makeup cosmetic, and sun care cosmetic.

In the above-described cosmetic method, it is preferable that the cosmetic is one or more sun care cosmetic(s) selected from the group consisting of sunscreen, beauty essence for daytime use, milky lotion for daytime use, and BB cream.

In the above-described cosmetic method, it is preferable that the sun care cosmetic is a non-aqueous emulsion sunscreen.

In the above-described cosmetic method, it is preferable that the base material film comprises one or more kinds of polylactic acid, polyglycolic acid, polycaprolactone, a copolymer thereof, and acrylic urethane copolymer.

In the above-described cosmetic method, it is preferable that the film of hyaluronic acid or its derivative is supported on the base material film.

In the above-described cosmetic method, it is preferable that the support body is a water-soluble polymer film or a cloth.

A makeup method of the present invention is the method in which abuse material film (thin film from which the support body is removed) is pasted after the application of a cosmetic material on the skin, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

A cosmetic kit of the present invention is the kit consists of a non-aqueous emulsion sunscreen and a thin film that consists of a base material film of the thickness of 10 to 500 nm and a support body.

Effect of the Invention

The present invention can be provided a cosmetic method having an excellent secondary adhesion resistance effect. In addition, when sun care cosmetics such as non-aqueous emulsion sunscreen are used, a cosmetic method excellent in the UV absorption effect can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the thin film used in the cosmetic method of the present invention.

FIG. 2 is explanatory drawings for the cosmetic method of the present invention.

FIG. 3 is explanatory drawings for the cosmetic method of the present invention.

FIG. 4 (A-1) is a picture wherein the makeup cosmetic (Reference Example 1) was applied on the skin. FIG. 4 (A-2) is a picture wherein the section on which the cosmetic material was applied (FIG. 4 (A-1)) was rubbed three times with a finger. FIG. 4 (B-1) is a picture wherein a base material film was pasted after the application of the makeup cosmetic (Reference Example 1) on the skin FIG. 4 (B-2) is a picture wherein the section on which the cosmetic material was applied (FIG. 4 (B-1)) was rubbed three times with a finger.

FIG. 5 (A) are spectra for the sample wherein a polymer emulsion sunscreen (Reference Example 2) was applied and for the sample wherein a base material film was pasted on that. FIG. 5 (B) are spectra for the sample wherein a water-in-oil sunscreen (Reference Example 3) was applied and for the sample wherein a base material film was pasted on that. FIG. 5 (C) are spectra for the sample wherein a non-aqueous emulsion sunscreen (Reference Example 4) was applied and for the sample wherein a base material film was pasted on that.

BEST MODE FOR CARRYING OUT THE INVENTION

At first, a thin film used in the cosmetic method of the present invention will explained.

The thin film used in the present invention is shown in FIG. 1.

The thin film 10 consists of a base material film 12 with the film thickness of 10 to 500 nm and a support body 14.

It is necessary that the thickness of base material film is 10 to 500 nm. The thickness of base material film is preferably 50 to 350 nm and especially preferably 100 to 250 nm.

If the thickness of base material film is too thick, an uncomfortable feeling is caused at an application location and the roughness correction effect tends to be poor.

If the thickness of base material film is too thin, the manageability tends to be poor.

The base material film material is not limited in particular; however, it is preferable to use one or more kinds of materials selected from the group consisting of polylactic acid, polyglycolic acid, polycaprolactone, copolymers thereof, and acrylic urethane copolymer.

The preparation method abase material film is not limited in particular so far as the thickness of the present invention can be achieved. However, it is preferable to prepare by a spin-coating method, a (micro) gravure method, or a spray-coating method. In the case of spin coating method, any spin coater can be used; however, it is preferable to carry out preparation at the rotation speed of 2000 to 5000 rpm.

Moreover, sodium hyaluronate is preferably supported on the base material film. In the present invention, the base material film includes the support layer (hyaluronic acid or its derivative) in the case that hyaluronic acid or its derivative is supported.

The thickness of the support layer (hyaluronic acid or its derivative) is not limited in particular; however, it is preferably 50 to 400 nm to produce a uniform product.

As a hyaluronic acid derivative or a derivative thereof, sodium hyaluronate, acetylated hyaluronic acid, and etc. can be listed.

The supporting of hyaluronic acid or its derivative can be carried out by any method. The preparation of base material film can be carried out by any optional method. For example, the method wherein a solution containing hyaluronic acid or a derivative thereof is dropwise added and dried after the preparation of the base material film by a spin-coating method, a (micro) gravure method, a spray-coating method, etc.; the method wherein a dispersion liquid is dropwise added on the substrate that is used in a spin-coating method, a (micro) gravure method, a spray-coating method, etc. after obtaining the dispersion liquid in which hyaluronic acid or a derivative thereof is dispersed in the base material film material; etc. can be listed, but is not limited in particular.

As a support body, a water-soluble polymer film or a cloth is preferably used. If only the base material film is used, it is too thin, the removal after preparation is difficult, and the manageability is poor. However, a thin film excellent in manageability can be obtained by laminating the support body.

The thickness of the support body is not limited in particular, but it is preferable to be 1 to 500 μm.

The water-soluble polymer film is not limited in particular, but it is preferable to comprise one or more polymer(s) selected from the group consisting of polyvinyl alcohol or a derivative thereof a polyether or a derivative thereof, polysaccharides, a polymer electrolyte or a salt thereof, and hyaluronic acid or a derivative thereof.

In order to make the handling easy, PET (polyethylene terephthalate) resin film may be laminated as the support body in addition to the water-soluble polymer film when sodium hyaluronate is supported.

The cloth is not limited in particular, but a mesh or a non-woven fabric is preferable.

The mesh means a sheet of network resin, and the examples of materials include PET resin, polyester resin, nylon, and etc. From the standpoint of removability, it is preferable to use PET resin; however, either can be effectively used.

Moreover, examples of non-woven fabrics include nylon, cellulose, polyester fiber, and etc.

In the present invention, the examples of kinds of support bodies and the usage are listed to lead to the state that the base material film is uniformly pasted on the skin; however, the effect of the present patent application can be achieved so far as it can be uniformly pasted on the skin.

The cosmetic method of the present invention is practiced to realize an excellent secondary adhesion resistance effect and realize the improvement of cosmetic long-lasting property.

The cosmetic method of the present invention has a step of applying a cosmetic material on the skin (FIG. 2 (A)), a step of removing the support body of the thin film (FIG. 2 (B)), and a step of pasting the base material film surface on the skin (FIG. 2 (C)).

At first, as shown in FIG. 2 (A), it is necessary to apply a cosmetic 20 on the skin. Cosmetic is not limited in particular, but the examples include skin care cosmetic, makeup cosmetic, sun care cosmetic, and etc. Among them, sun care cosmetic is preferable.

Sun care cosmetics are cosmetic materials used to protect the skin from UV rays, and a large amount of UV absorber is usually blended. In the present invention, sun care cosmetics are not necessarily for the body only, but the cosmetics used for the face are also included. The examples of sun care cosmetics include sunscreen, beauty essence for daytime use, milky lotion for daytime use, BB cream, and etc.

BB cream is an abbreviation of Blemish Balm cream, and it is a multifunctional cosmetic having the functions of sunscreen and beauty essence as well as the functions of makeup cosmetics such as pre-makeup, foundation, and concealer; therefore, BB cream could be classified to both sun care cosmetics and makeup cosmetics.

As the cosmetic 20 in the present invention, a non-aqueous emulsion sunscreen is especially preferably used. The improvement of the UV absorption effect in the cosmetic method of the present invention can be felt especially by using a non-aqueous emulsion sunscreen.

Makeup cosmetic is not limited in particular, but the examples include foundation, cheek, eye shadow, pre-makeup, lipstick, BB cream, and etc.

The examples of skin care cosmetics include lotion, milky lotion, beauty essence, cream, and etc. When a skin care cosmetic is used, an excellent percutaneous absorption effect of active components can be realized. Therefore, when a skin care cosmetic is used, it is preferable to blend active components such as moisturizer, whitening agent, blood circulation promoter, and plant extracts.

Subsequently, as shown in FIG. 2 (B), it is necessary to remove the support body 14 of the thin film and obtain the base material film 12.

When a water-soluble polymer film is used as the support body, the water-soluble polymer film can be easily removed, for example, by immersing in water.

When cloth is used as the support body, the base material film can pasted on the skin and only the support body can be peeled off by applying water, lotion, etc. on the skin and pasting the base material film side of the thin film on the skin.

As shown in FIG. 2 (C), it is necessary to paste the base material film on the skin.

When hyaluronic acid or its derivative is supported on the base material film, it is preferable that the side supporting hyaluronic acid or its derivative is pasted on the skin.

In the cosmetic method of the present invention, the order may be reversed for the step of removing the support body of the thin film and the step of pasting the base material film on the skin.

That is, the cosmetic method of the present invention has a step of applying a cosmetic material on the skin (FIG. 3 (A)), a step of pasting the base material film surface of the thin film on the skin (FIG. 3 (B)), and a step of removing the support body of the pasted thin film (FIG. 3 (C)).

These steps can be carried out in the same way as the above embodiment.

In the step shown in FIG. 3 (B), the thin film is pasted on the moderately wetted skin. When cloth is used as the support body, the thin film can be easily pasted on such wetted skin. Thus, in this embodiment, cloth is preferably used as support body.

The base material film pasted by the cosmetic method of the present invention can be peeled off, after use, with water and other cleansers (for example, makeup remover, facial cleanser, etc.).

Thus, the base material film can be removed by even simple water. However, the base material film of the present invention is not removed by normal perspiration only.

EXAMPLES

Initially, the preparation method of the thin film used in cosmetic method of the present invention will be explained.

Preparation Method of Thin Film

All operations were carried out by setting up a spin coater (Opticoat MS-A 150, manufactured by MIKASA Co., Ltd.) inside a clean room (class: 10,000).

Silicon substrate (manufactured by KST World Corp.) was cut into 4 cm×4 cm, immersed in SPM (H₂SO₄/H₂O₂=2.3:1 (v/v)) at 120° C. for 10 minutes, and then washed with ion-exchanged water (specific resistance: 18 MΩcm). This substrate was placed on a spin coater, and the spin coating (4000 rpm, 20 seconds) was carried out by adding dropwise 500 μL of dichloromethane solution of poly-L-lactic acid (hereinafter referred to as PLA) (Mw: 100,000, manufactured by Polysciences Inc., 10 mg/mL) to obtain a poly-L-lactic acid film. The thickness of the obtained poly-L-lactic acid film was measured with an atomic force microscope (manufactured by Keyence Corporation); it was 120 am.

Subsequently, 10 mg/mL sodium hyaluronate (Biohyalo 12 (manufactured by Shiseido Co., Ltd.), hereinafter referred to as HA) was prepared with 50% and 70% ethanol aqueous solutions. About 1.5 nit of this was dropwise added on the poly-L-lactic acid film and dried (80° C., 30 minutes), the substrate surface was washed with ion-exchanged water (room temperature, 1 minute), and the surface was dried with nitrogen gas; thus a base material film (a film wherein sodium hyaluronate is supported on the poly-L-lactic acid film; the thickness: 130 nm) was obtained.

In addition, 0.5 mL of polyvinyl alcohol aqueous solution (hereinafter PVA, Mw: 22,000, manufactured by Kanto Chemical Co., Inc., 100 mg/mL) was dropwise added on the surface of the prepared base material film and dried; thus a water-soluble polymer film (PVA film) was formed on the base material film (80° C., 30 minutes). A thin film was obtained by peeling off, from the silicon substrate, the base material film together with the water-soluble polymer film.

The below-described effects were evaluated by pasting the side of supporting sodium hyaluronate on the skin with the base material film which was obtained by dissolving the water-soluble polymer film by immersing the thin film in water.

At first, the present inventors investigated the skin wherein the base material film of the thin film, obtained by the above-described preparation method, was pasted on the skin to which a makeup cosmetic was applied.

The pictures of the skins (A (control) and B), whose makeup was applied by the below method, are shown in FIG. 4 (A-1) and FIG. 4 (B-1), respectively. Pictures of the removal of eye shadow when the skin was rubbed by a finger three times with the identical force are taken and shown in FIG. 4 (A-2) and FIG. 4 (B-2), respectively.

Skin A (control)

Eye shadow of the below-described Reference Example 1 was applied on the non-coated skin with an eye shadow tip.

Skin B

Eye shadow of the below-described Reference Example 1 was applied on the non-coated skin with an eye shadow tip. Then, a little water was put on the skin, abuse material film was pasted, and it was allowed to stand for 1 minute until the base material film dried.

Reference Example 1

Eye Shadow

Talc                 45 mass %
Mica                 15
Sericite             5
Pigment              15
Pearlescent pigment  10
Liquid paraffin      6
Dimethylpolysiloxane 2
Antioxidant          2
Preservative         proper quantity

According to FIG. 4, when a base material film was pasted after the application of a makeup cosmetic, the makeup cosmetic hardly fell off, the cosmetic long-lasting property was improved, and the secondary adhesion resistance effect was excellent.

The present inventors prepared a thin film by the above-described preparation method, and the UV absorption effect of the base material film, when used in combination with a sun care cosmetic, was investigated.

That is, the absorbance in the UV region was measured for the sample wherein each sun care cosmetic of the below-described Reference Examples 2 to 4 was applied on a PMMA plate. Subsequently, a base material film was pasted on each sample, and the absorbance in the UV region was measured for the same section. The measurement was carried out with an automatic recording spectrophotometer “U-3500” (manufactured by Hitachi, Ltd.) at 25° C.

The results for the samples of Reference Examples 2 to 4 are shown in FIG. 5 (A) to FIG. 5 (C), respectively.

Reference Example 2

Polymer Emulsion Sunscreen

Octyl methoxycinnamate           8 mass %
4-t-butyl-4′-methoxybenzoylmethane 2
(Acrylate/alkyl (C10-30) acrylate) crosspolymer proper quantity
Carboxyvinylpolymer              proper quantity
Glycerin                         5
Dipropylene glycol               7
Cetyl 2-ethyl hexanoate          10
Caustic potash                   proper quantity
Ion-exchanged water              balance

Reference Example 3

Water-in-Oil Sunscreen

Octyl methoxycinnamate           8 mass %
4-t-butyl-4′-methoxybenzoylmethane 2
PEG-9 polydimethylsiloxyethyl dimethicone 1
Methylpolysiloxane network copolymer 3
Cross-linked silicone/network silicone block copolymer 3
Dimethylpolysiloxane             5
Isododecane                      12
Decamethylcyclopentasiloxane     18
Glyceryl tri-2-ethyl hexanoate   10
Polybutylene glycol              1
Trisodium edetate                proper quantity
Sodium chloride                  proper quantity
Ethanol                          5
Glycerin                         5
Ion-exchanged water              balance

Reference Example 4

Non-Aqueous Emulsion Sunscreen

Octyl methoxycinnamate           8 mass %
4-t-butyl-4′-methoxybenzoylmethane 2
Polyoxyethylene(20)/polyoxypropylene(8) cetyl ether 3
Glycerin                         5
Dipropylene glycol               7
Cetyl 2-ethyl hexanoate          10
Carboxyvinylpolymer              proper quantity
Caustic potash                   proper quantity
Sodium hexamethaphosphate        proper quantity
Ion-exchanged water              balance

According to the results of FIG. 5, the UV absorption rates when a base material film was pasted on the respective cosmetic materials were 84% (Reference Example 2), 105% (Reference Example 3), and 130% (Reference Example 4) with respect to the control (only cosmetic material).

Thus, except for the polymer emulsion sunscreen, the UV absorption effect was found to increase by pasting a base material film on the section where a sun care cosmetic was applied.

In particular, an excellent UV absorption effect was found to be realized by pasting a base material film on the section where a non-aqueous emulsion sunscreen was applied.

Next, the present inventors prepared, by the (micro) gravure method, a thin film containing a base material film of the thickness of 330 nm (poly-L-lactic acid film 250 nm+acetylated hyaluronic acid 80 nm). As the support body, cloth (PET mesh) was used.

The excellent secondary adhesion resistance effect and the UV absorption effect, when a sun care cosmetic was used, could be realized with these thin films similarly to the case that a water-soluble polymer film was the support body.

Furthermore, the present inventors prepared thin films containing base material films (support body: PET mesh, nylon mesh, or non-woven cloth), by the (micro) gravure method, having the thickness other than the above-described thickness (300 nm (poly-L-lactic acid film 200 nm+acetylated hyaluronic acid 100 nm) and 400 nm (poly-L-lactic acid film 200 nm+acetylated hyaluronic acid 200 nm)).

These base material films were pasted on the skin; as a result, all of them were excellent in the secondary adhesion resistance effect and the UV absorption effect when a sun care cosmetic was used.

DESCRIPTION OF THE NUMERALS

• 10: Thin film
• 12: Base material film
• 14: Support body
• 16: Stratum corneum
• 18: Epidermis
• 20: Cosmetic

Claims

1. A cosmetic method having a step of applying a cosmetic material on the skin, a step of pasting the base material film surface of a thin film on the skin, and a step of removing the support body of the pasted thin film, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

2. A cosmetic method having a step of applying a cosmetic material on the skin, a step of removing the support body of the thin film, and a step of pasting a base material film on the skin, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

3. The cosmetic method according to claim 1, wherein the cosmetic is one or more cosmetic(s) selected from the group consisting of skin care cosmetic, makeup cosmetic, and sun care cosmetic.

4. The cosmetic method according to claim 3, wherein the cosmetic is one or more sun care cosmetic(s) selected from the group consisting of sunscreen, beauty essence for daytime use, milky lotion for daytime use, and BB cream.

5. The cosmetic method according to claim 4, wherein the sun care cosmetic is a non-aqueous emulsion sunscreen.

6. The cosmetic method according to claim 1, wherein the base material film comprises one or more kinds of polylactic acid, polyglycolic acid, polycaprolactone, a copolymer thereof, and acrylic urethane copolymer.

7. The cosmetic method according to claim 1, wherein the film of hyaluronic acid or its derivative is supported on the base material film.

8. The cosmetic method according to claim 1, wherein the support body is a water-soluble polymer film or a cloth.

9. A makeup method in which a base material film (thin film from which the support body is removed) is pasted after the application of a cosmetic material on the skin, wherein the thin film consists of a base material film of the thickness of 10 to 500 nm and a support body.

10. A cosmetic kit, wherein the kit consists of a non-aqueous emulsion sunscreen and a thin film that consists of a base material film of the thickness of 10 to 500 nm and a support body.