JP3665049B2 - Cell activator, antioxidant, and skin external preparation - Google Patents

Description

【００２４】
表１より明らかなように、トウワタ抽出物を添加した培地では、有意な真皮線維芽細胞賦活作用が認められた。特に、トウワタ抽出物を８．０μｇ／ｍＬ添加した場合に、ブランクと比較して、危険率１％未満で有意な真皮線維芽細胞賦活作用が認められた。このことから、トウワタ抽出物は、優れた真皮線維芽細胞賦活作用を有することが明らかとなった。
【００２５】
次に、トウワタ属（Ａｓｃｌｅｐｉａｓ）植物抽出物の抗酸化作用について示す。試料には、トウワタ（Ａｓｃｌｅｐｉａｓ ｃｕｒａｓｓａｖｉｃａ Ｌ．）より調製方法１を用いて抽出したトウワタ抽出物を用いた。
【００２６】
評価は、以下の手順で行った。５０重量％エタノール水溶液にて１ｍｇ／ｍＬに希釈したトウワタ抽出物溶液を９６穴マイクロプレートに１００μＬ添加した。次に、０．２ｍＭの濃度になるようにエタノールにて調製した１，１−ジフェニル−２−ピクリルヒドラジル（ＤＰＰＨ）溶液を９６穴マイクロプレートに１００μＬ添加した。攪拌しながら暗所に放置し、２４時間後に５１６ｎｍの吸光度を測定した。試料が無添加のブランクの吸光度を（Ａ）、試料を添加したときの吸光度を（Ｂ）としたとき、式（１）の値をラジカル消去率とした。
式（１） ｛１−（Ｂ）／（Ａ）｝×１００（％）
トウワタ抽出物の実験結果を表２に示す。
【００２７】
【表２】

【００２８】
表２より明らかなように、トウワタ抽出物は優れた抗酸化作用を有することが分かった。
【００２９】
続いて、本発明に係るトウワタ属（Ａｓｃｌｅｐｉａｓ）植物抽出物を配合した皮膚外用剤の処方を示す。実施例１〜５の処方には、表３に示すトウワタ属（Ａｓｃｌｅｐｉａｓ）植物抽出物を配合し、実施例６〜１８の各処方には、それぞれの処方に記載のトウワタ属（Ａｓｃｌｅｐｉａｓ）植物を配合した。
【００３０】

製法：（１）〜（６）の油相成分を８０℃にて加熱溶解する。一方（７）〜（10）の水相成分を８０℃にて加熱溶解する。これに前記油相成分を攪拌しながら加え、ホモジナイザーにより均一に乳化する。乳化終了後、冷却を開始し、（11）と（12）を順次加え、均一に混合する。
【００３１】
【表３】

【００３２】
［実施例６］化粧水
（１）エタノール １５．０（重量％）
（２）ポリオキシエチレン（４０Ｅ．Ｏ．）硬化ヒマシ油 ０．３
（３）香料 ０．１
（４）精製水 ８１．３６
（５）クエン酸 ０．０２
（６）クエン酸ナトリウム ０．１
（７）グリセリン ３．０
（８）ヒドロキシエチルセルロース ０．１
（９）トウワタ抽出物［調製方法３］ ０．０２
製法：（１）に（２）及び（３）を溶解する。溶解後、（４）〜（８）を順次添加した後、十分に攪拌し、（９）を加え、均一に混合する。
【００３３】
［実施例７］クリーム
（１）スクワラン １０．０（重量％）
（２）ステアリン酸 ２．０
（３）水素添加パーム核油 ０．５
（４）水素添加大豆リン脂質 ０．１
（５）セタノール ３．６
（６）親油型モノステアリン酸グリセリン ２．０
（７）グリセリン １０．０
（８）パラオキシ安息香酸メチル ０．１
（９）アルギニン（２０重量％水溶液） １５．０
（10）精製水 ４０．７
（11）カルボキシビニルポリマー（１重量％水溶液） １５．０
（12）トウワタ抽出物［調製方法１］ １．０
製法：（１）〜（６）の油相成分を８０℃にて加熱溶解する。一方（７）〜（10）の水相成分を８０℃にて加熱溶解する。これに前記油相成分を攪拌しながら加え、ホモジナイザーにより均一に乳化する。乳化終了後、（11）を加え、冷却を開始し、４０℃にて（12）を加え、均一に混合する。
【００３４】

製法：（１）〜（６）の水相成分を混合し、７５℃にて加熱溶解する。一方、（７）〜（14）の油相成分を混合し、７５℃にて加熱溶解する。次いで、上記水相成分に油相成分を添加して予備乳化を行った後、ホモミキサーにて均一に乳化する。乳化終了後に冷却を開始し、５０℃にて（15）を加える。さらに４０℃まで冷却し、（16）を加え、均一に混合する。
【００３５】
［実施例９］水性ジェル
（１）カルボキシビニルポリマー ０．５（重量％）
（２）精製水 ８６．４
（３）水酸化ナトリウム（１０重量％水溶液） ０．５
（４）エタノール １０．０
（５）パラオキシ安息香酸メチル ０．１
（６）香料 ０．１
（７）トウワタ抽出物［調製方法４］ ０．１
（８）ポリオキシエチレン（６０Ｅ．Ｏ．）硬化ヒマシ油 ０．１
（９）グリセリン ２．０
（10）ヤナギトウワタ抽出物［調製方法３］ ０．１
（11）オオトウワタ抽出物［調製方法２］ ０．１
製法：（１）を（２）に加え、均一に攪拌した後、（３）を加える。均一に攪拌した後，（４）に予め溶解した（５）を加える。均一に攪拌した後、予め混合しておいた（６）〜（８）を加える。均一に攪拌した後、（９）〜（11）を順次加え、均一に混合する。
【００３６】
［実施例１０］クレンジング料
（１）スクワラン ８１．９（重量％）
（２）イソステアリン酸ポリオキシエチレングリセリル １５．０
（３）精製水 ３．０
（４）トウワタ抽出物［調製方法４］ ０．０５
（５）ヤナギトウワタ抽出物［調製方法４］ ０．０５
製法：（１）と（２）を均一に溶解する。これに、（３）〜（５）を順次加え、均一に混合する。
【００３７】
［実施例１１］洗顔フォーム
（１）ステアリン酸 １６．０（重量％）
（２）ミリスチン酸 １６．０
（３）親油型モノステアリン酸グリセリン ２．０
（４）グリセリン ２０．０
（５）水酸化ナトリウム ７．５
（６）ヤシ油脂肪酸アミドプロピルベタイン １．０
（７）精製水 ３６．５
（８）トウワタ抽出物［調製方法３］ ０．５
（９）オオトウワタ抽出物［調製方法２］ ０．５
製法：（１）〜（４）の油相成分を８０℃にて加熱溶解する。一方（５）〜（７）の水相成分を８０℃にて加熱溶解し、油相成分と均一に混合撹拌する。冷却を開始し、４０℃にて（８）と（９）を加え、均一に混合する。
【００３８】
［実施例１２］メイクアップベースクリーム
（１）スクワラン １０．０(重量％)
（２）セタノール ２．０
（３）グリセリントリ−２−エチルヘキサン酸エステル ２．５
（４）親油型モノステアリン酸グリセリル １．０
（５）プロピレングリコール １１．０
（６）ショ糖脂肪酸エステル １．３
（７）精製水 ７０．４
（８）酸化チタン １．０
（９）ベンガラ ０．１
（10）黄酸化鉄 ０．４
（11）香料 ０．１
（12）トウワタ抽出物［調製方法２］ ０．１
（13）ヤナギトウワタ抽出物［調製方法１］ ０．１
製法：（１）〜（４）の油相成分を混合し、７５℃にて加熱溶解する。一方、（５）〜（７）の水相成分を混合し、７５℃にて加熱溶解し、これに（８）〜（10）の顔料を加え、ホモミキサーにて均一に分散させる。この水相成分に前記油相成分を加え、ホモミキサーにて乳化する。乳化終了後に冷却を開始し、４０℃にて（11）〜（13）の成分を加え、均一に混合する。
【００３９】

製法：（１）〜（６）の油相成分を混合し、７５℃にて加熱溶解する。一方、（７）〜（10）の水相成分を混合し、７５℃にて加熱溶解し、これに（11）〜（15）の顔料を加え、ホモミキサーにて均一に分散する。油相成分を加え、乳化を行う。乳化終了後に冷却を開始し、４０℃にて（16）〜（18）の成分を順次加え、均一に混合する。
【００４０】
［実施例１４］油中水型エモリエントクリーム
（１）流動パラフィン ３０．０(重量％)
（２）マイクロクリスタリンワックス ２．０
（３）ワセリン ５．０
（４）ジグリセリンオレイン酸エステル ５．０
（５）塩化ナトリウム １．３
（６）塩化カリウム ０．１
（７）プロピレングリコール ３．０
（８）１，３−ブチレングリコール ５．０
（９）パラオキシ安息香酸メチル ０．１
（10）トウワタ抽出物［調製方法１］ ０．５
（11）精製水 ４５．９
（12）香料 ０．１
（13）オオトウワタ抽出物［調製方法４］ ２．０
製法：（５）と（６）を（11）の一部に溶解して５０℃とし、５０℃に加熱した（４）に撹拌しながら徐々に加える。これを混合した後、７０℃にて加熱溶解した（１）〜（３）に均一に分散する。これに（７）〜（10）を（11）の残部に７０℃にて加熱溶解したものを撹拌しながら加え、ホモミキサーにて乳化する。乳化終了後に冷却を開始し、４０℃にて（12）と（13）を加え、均一に混合する。
【００４１】
［実施例１５］ヘアートニック
（１）エタノール ５０．０(重量％)
（２）精製水 ４９．８９８
（３）オオトウワタ抽出物［調製方法３］ ０．００１
（４）トウワタ抽出物［調製方法４］ ０．００１
（５）香料 ０．１
製法：（１）〜（５）の成分を混合，均一化する。
【００４２】
［実施例１６］パック
（１）精製水 ６８．９(重量％)
（２）ポリビニルアルコール １２．０
（３）エタノール １０．０
（４）グリセリン ５．０
（５）ポリエチレングリコール（平均分子量１０００） ２．０
（６）ヤナギトウワタ抽出物［調製方法１］ １．０
（７）トウワタ抽出物［調製方法２］ １．０
（８）香料 ０．１
製法：（２）と（３）を混合し、８０℃に加温した後、８０℃に加温した（１）に溶解する。均一に溶解した後、（４）〜（５）を加え、攪拌しながら冷却を開始する。４０℃まで冷却し、（６）〜（８）を加え、均一に混合する。
【００４３】

製法：（１）〜（６）の油相成分を混合し、７５℃にて加熱溶解後する。一方、（７）〜（10）の水相成分を７５℃にて加熱溶解し、前記油相成分を加え、ホモミキサーにて乳化する。乳化終了後に冷却を開始し、４０℃にて（11）〜（13）の成分を加え、均一に混合する。
【００４４】
［実施例１８］入浴剤
（１）香料 ０．３(重量％)
（２）トウワタ抽出物［調製方法１］ ０．５
（３）オオトウワタ抽出物［調製方法３］ ０．５
（４）炭酸水素ナトリウム ５０．０
（５）硫酸ナトリウム ４８．７
製法：（１）〜（５）を均一に混合する。
【００４５】
本発明の実施例１〜５について使用試験を行い、シワ，タルミ，肌のハリの改善効果を評価した。その際、実施例１において、配合したトウワタ抽出物を精製水に代替し、比較例１として同時に使用試験を行った。
【００４６】
各試料について、シワ，タルミ，肌のハリの低下といった症状が顕著に認められる５０〜６０才代の男女パネラー各２０名を一群とし、ブラインドにて１カ月間使用させ、使用前後の皮膚状態の変化を観察して評価した。皮膚症状の指標として、シワ，タルミ，肌のハリについて、「改善」，「やや改善」，「変化なし」の三段階で評価し、表４に各評価を得たパネラー数にて示した。
【００４７】
【表４】

【００４８】
表４より、シワ，タルミ，肌のハリについて、トウワタ属（Ａｓｃｌｅｐｉａｓ）植物抽出物を含有しない比較例使用群においては、半数以上のパネラーに改善が認められなかったが、トウワタ属（Ａｓｃｌｅｐｉａｓ）植物抽出物を配合した実施例使用群においては、６割以上のパネラーに明確な改善が認められた。
【００４９】
以上のように、本発明の実施例においては、従来の比較例よりも、シワ，タルミ，肌のハリといった老化症状の改善に優れた効果を有していた。
【００５０】
【発明の効果】
以上詳述したように、本発明により、優れた効果を有する細胞賦活剤及び抗酸化剤を得ることが出来た。また、係る細胞賦活剤及び抗酸化剤を有効成分として配合することにより、皮膚の老化症状の防止・改善に優れた効果を有する皮膚外用剤を得ることが出来た。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cell activator, an antioxidant, and a skin external preparation containing such a cell activator and an antioxidant. More particularly, contains Asclepias (Asclepias) cell activator and an antioxidant as an active ingredient a plant extract, cell activators according to the arrangement and antioxidants Asclepiadaceae (Asclepiadaceae), prevention and improvement of senile symptoms The present invention relates to a skin external preparation that exhibits an excellent effect on skin.
[0002]
[Prior art]
A decrease in the function of dermal fibroblasts due to aging causes a decrease or degeneration of the dermal matrix such as collagen and elastin, and is an important factor of aging symptoms such as wrinkles and a decrease in skin elasticity. In addition, oxidative damage caused by extraneous stress such as ultraviolet rays also causes aging symptoms such as wrinkles, spots, and a decrease in skin elasticity. Until now, in the field of topical skin preparations, various cell activators and antioxidants have been searched for and investigated in order to prevent and improve the aging symptoms caused by such functional deterioration of cells and oxidative damage. As cell activators, the essence of Ponkan (refer to Patent Document 1), genus Genus, Wedge and their extracts (refer to Patent Document 2), chlorella extract using an organic solvent (refer to Patent Document 3), As antioxidants, Asteraceae heterotheca plant extracts (see Patent Document 4) and Salogaceae Salogase plant extracts (see Patent Document 5) are known.
[0003]
In addition, regarding the utilization of the plant of the genus Calyceae which concerns on this invention, the composition for oral cavity formed by mix | blending the solvent extract of the genus Asclepias (genus Towata) as a deodorizing component is disclosed (patent document 6). reference). However, this literature known invention, formulated into Asclepias (Asclepias) skin external agent for the prevention and improvement of use and aging symptoms as a cell activator and antioxidant plant extracts of Asclepiadaceae (Asclepiadaceae) There was no statement regarding this.
[0004]
[Patent Document 1]
JP 2001-131045 A [Patent Document 2]
JP 2000-178198 A [Patent Document 3]
Japanese Patent Laid-Open No. 11-335293 [Patent Document 4]
JP-A-11-180886 [Patent Document 5]
JP-A-10-182413 [Patent Document 6]
JP-A 64-26512
[Problems to be solved by the invention]
Conventionally used cell activators and antioxidants often act only in part of the aging phenomenon, and are considered to be insufficient as an essential aging improvement effect. In addition, when blended into the base of the external preparation for skin, to obtain an effective effect, it must be blended in a fairly high concentration, and may give an unfavorable color and odor to the formulation, etc. At present, there are few things that can satisfy all of the effects and stability. For this reason, development of a more effective active ingredient is anticipated and this invention is made | formed in view of such a situation. Therefore, the object of the present invention is to contain a cell activator having an excellent effect and an antioxidant having an excellent effect, and such a cell activator and an antioxidant, and has an excellent effect in preventing and improving aging symptoms. It is in providing the skin external preparation which exhibits.
[0006]
[Means for Solving the Problems]
In order to find a component excellent in prevention and improvement of skin aging symptoms, the present inventors have studied cell activation and antioxidant effects of various substances. As a result, an excellent dermal fibroblast activation action and antioxidant action were found in the Asclepias plant extract, and further studies were made to complete the present invention.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Plants used as a raw material of the present invention may be any plant of Asclepias of Asclepiadaceae (Asclepiadaceae) (Asclepias). The Asclepias (Asclepias) plants, milkweed (Asclepias curassavica L.), Ootouwata (Asclepias syriaca L.), pleurisy (Asclepias tuberosa L.), Asclepias Shiraka (Asclepias syraca), Asclepias Supekiosa (Asclepias speciosa), etc. About 120 species are known.
[0008]
Plants as a raw material used in the present invention is not particularly limited as long as it is a plant of Asclepias of Asclepiadaceae (Asclepiadaceae) (Asclepias), as being suitable as a raw material for reasons such as availability is relatively easy, milkweed ( Asclepias curassavica L.), Japanese cotton ( Asclepias syriaca L.), Willow milkweed ( Asclepias tuberosa L.) and the like.
[0009]
When using these Asclepias plants, it is common to use an extract. For extraction, any part of the roots, leaves, flowers, stems, stem bark, etc. of Asclepias plants may be used, but whole plants may be used for convenient use. In the extraction, it may be used as it is, but considering the extraction efficiency, it is preferable to perform the extraction after performing processing such as shredding, drying, and pulverization. The extraction can be performed by immersing in an extraction solvent or by an extraction method using a supercritical fluid or a subcritical fluid. In order to increase the extraction efficiency, the mixture may be homogenized in stirring or an extraction solvent. Although extraction temperature is not specifically limited, It is preferable to set it as the temperature below about the boiling point of an extraction solvent from about 5 degreeC. The extraction time varies depending on the type of extraction solvent and the extraction temperature, but is preferably about 1 hour to 14 days.
[0010]
Extraction solvents include water, lower alcohols such as methanol, ethanol, propanol, and isopropanol, polyhydric alcohols such as 1,3-butylene glycol, propylene glycol, dipropylene glycol, and glycerin, and ethers such as ethyl ether and propyl ether. , Solvents such as esters such as butyl acetate and ethyl acetate, and ketones such as acetone and ethyl methyl ketone can be used, and one or more of these are selected and used. Further, physiological saline, phosphate buffer, phosphate buffered saline, or the like may be used. Furthermore, you may use 1 type, or 2 or more types of supercritical fluids and subcritical fluids, such as water, a carbon dioxide, ethylene, propylene, ethanol, methanol, ammonia.
[0011]
An extract of Asclepias plants using the above solvent can be used as it is, but the concentrated and dried product can be dissolved again in water or a polar solvent, or the physiological action thereof is not impaired. You may use, after performing purification processes, such as decoloring, deodorizing, and desalting, or performing the fractionation process by column chromatography etc. The above-mentioned extract of the genus Asclepias , its treated product and fractions can be freeze-dried after each treatment and fractionation and dissolved in a solvent before use. It can also be used by encapsulating in vesicles such as liposomes or microcapsules.
[0012]
The cell activator and antioxidant in the present invention contain the above-mentioned Asclepias plant extract as an active ingredient. Moreover, the effect which was excellent in the prevention and improvement of an aging symptom is shown by mix | blending the plant extract ( Asclepias ) which concerns with a skin external preparation as a cell activator and an antioxidant.
[0013]
The blending amount of the plant extract of the genus Asclepias in the present invention can be adjusted according to the type and purpose of the external preparation for skin, but is 0.0001 to 10.0% by weight based on the total amount of the external preparation for skin. Is more preferable, and 0.001 to 5.0% by weight is more preferable.
[0014]
The external preparation for skin according to the present invention can be provided in various dosage forms such as lotion, emulsion, gel, cream, ointment, powder, granule and the like.
[0015]
It should be noted that the skin external preparation according to the present invention includes oily ingredients that are usually blended in pharmaceuticals, quasi-drugs, skin cosmetics, hair cosmetics, and cleansing agents in addition to plant extracts of the genus Asclepias. , Moisturizers, powders, pigments, emulsifiers, solubilizers, detergents, UV absorbers, thickeners, drugs, fragrances, resins, antibacterial / antifungal agents, alcohols, and the like can be appropriately blended. Moreover, in the range which does not impair the effect of this invention, combined use with another cell activator, an antioxidant, and a plant extract is also possible.
[0016]
【Example】
Further, the features of the present invention will be described in detail by way of examples. First, the method for preparing the Asclepias plant extract of the present invention will be described.
[0017]
[Preparation Method 1]
10 kg of 50% by weight aqueous ethanol solution was added to 1 kg of a dry pulverized whole plant of Asclepias plants, and immersed for 7 days at room temperature. The extract was collected by filtration, and after removing the solvent, an Asclepias plant extract was obtained.
[0018]
[Preparation Method 2]
Nine liters of water was added to 1 kg of a dry pulverized whole plant of Asclepias plants, and the mixture was extracted by refluxing at 90 ° C. for 6 hours. The extract was collected by filtration, and after removing the solvent, an Asclepias plant extract was obtained.
[0019]
[Preparation Method 3]
Nine liters of methanol was added to 1 kg of a dry pulverized whole plant of Asclepias plants and immersed for 7 days at room temperature. The extract was collected by filtration, and after removing the solvent, an Asclepias plant extract was obtained.
[0020]
[Preparation Method 4]
The whole plant of Asclepias plant was put into a supercritical extraction apparatus, and extracted using a supercritical fluid of carbon dioxide at 40 ° C. under a pressure of 15 MPa. The extract was collected to obtain an Asclepias plant extract.
[0021]
Next, the dermal fibroblast activation action of the Asclepias plant extract is shown. As a sample, milkweed extract extracted from milkweed ( Asclepias curassavica L.) using preparation method 1 was used.
[0022]
The evaluation was performed according to the following procedure. Normal human dermal fibroblasts were seeded in a 96-well microplate at 2.0 × 10 ⁴ cells per well. The seeding medium used was Dulbecco's modified Eagle medium (DMEM) supplemented with 1% fetal bovine serum. After culturing for 24 hours, the culture medium was replaced with a test medium to which a sample having an arbitrary concentration was added, and further cultured for 48 hours. Next, the medium containing 400 μg / mL of 3- (4,5-dimethyl-2-thiazolyl) -2,5-diphenyltetrazolium bromide (MTT) was exchanged and cultured for 2 hours. Formazan produced by the opening of the tetrazolium ring was removed. Extraction was performed with 2-propanol, and absorbance at 550 nm was measured with a microplate reader. At the same time, the absorbance at 650 nm was measured as turbidity, and the cell activation effect was evaluated by the difference between the two measured values. Further, in order to confirm the validity of the measurement method, instead of the medium to which the sample was added, measurement was performed using Dulbecco's modified Eagle medium (DMEM) with 5% fetal bovine serum as a positive control. The evaluation results are shown in Table 1 as relative values with the cell activation effect in the blank with no sample as 100.
[0023]
[Table 1]

[0024]
As is clear from Table 1, a significant dermal fibroblast activation effect was observed in the medium supplemented with milkweed extract. In particular, when Towata extract was added at 8.0 μg / mL, a significant dermal fibroblast activation effect was observed at a risk rate of less than 1% compared to the blank. From this, it was revealed that milkweed extract has an excellent dermal fibroblast activation effect.
[0025]
Next, the antioxidant effect of the Asclepias plant extract is shown. As a sample, milkweed extract extracted from milkweed ( Asclepias curassavica L.) using preparation method 1 was used.
[0026]
The evaluation was performed according to the following procedure. 100 μL of milkweed extract solution diluted to 1 mg / mL with 50 wt% aqueous ethanol was added to a 96-well microplate. Next, 100 μL of a 1,1-diphenyl-2-picrylhydrazyl (DPPH) solution prepared with ethanol to a concentration of 0.2 mM was added to a 96-well microplate. The mixture was left in the dark with stirring, and the absorbance at 516 nm was measured after 24 hours. When the absorbance of the blank with no sample added was (A) and the absorbance when the sample was added was (B), the value of formula (1) was defined as the radical elimination rate.
Formula (1) {1- (B) / (A)} × 100 (%)
The experimental results of milkweed extract are shown in Table 2.
[0027]
[Table 2]

[0028]
As is apparent from Table 2, milkweed extract was found to have an excellent antioxidant effect.
[0029]
Then, the prescription of the skin external preparation which mix | blended the Asperias plant extract based on this invention is shown. The formulas of Examples 1 to 5 are blended with the plant extracts of Asclepias shown in Table 3, and the formulas of Examples 6 to 18 are the plants of the genus Asclepias described in the respective formulas. Blended.
[0030]

Production method: The oil phase components (1) to (6) are heated and dissolved at 80 ° C. On the other hand, the aqueous phase components (7) to (10) are dissolved by heating at 80 ° C. The oil phase component is added to this while stirring and uniformly emulsified with a homogenizer. After emulsification, start cooling and add (11) and (12) sequentially and mix uniformly.
[0031]
[Table 3]

[0032]
[Example 6] Lotion (1) Ethanol 15.0 (% by weight)
(2) Polyoxyethylene (40E.O.) hydrogenated castor oil 0.3
(3) Fragrance 0.1
(4) Purified water 81.36
(5) Citric acid 0.02
(6) Sodium citrate 0.1
(7) Glycerin 3.0
(8) Hydroxyethyl cellulose 0.1
(9) Milkweed extract [Preparation method 3] 0.02
Production method: (2) and (3) are dissolved in (1). After dissolution, (4) to (8) are sequentially added, and then sufficiently stirred, (9) is added and mixed uniformly.
[0033]
[Example 7] Cream (1) Squalane 10.0 (% by weight)
(2) Stearic acid 2.0
(3) Hydrogenated palm kernel oil 0.5
(4) Hydrogenated soybean phospholipid 0.1
(5) Cetanol 3.6
(6) Lipophilic glyceryl monostearate 2.0
(7) Glycerin 10.0
(8) Methyl paraoxybenzoate 0.1
(9) Arginine (20% by weight aqueous solution) 15.0
(10) Purified water 40.7
(11) Carboxyvinyl polymer (1% by weight aqueous solution) 15.0
(12) Milkweed extract [Preparation method 1] 1.0
Production method: The oil phase components (1) to (6) are heated and dissolved at 80 ° C. On the other hand, the aqueous phase components (7) to (10) are dissolved by heating at 80 ° C. The oil phase component is added to this while stirring and uniformly emulsified with a homogenizer. After the emulsification is completed, add (11), start cooling, add (12) at 40 ° C., and mix uniformly.
[0034]

Production method: The aqueous phase components (1) to (6) are mixed and dissolved by heating at 75 ° C. On the other hand, the oil phase components (7) to (14) are mixed and dissolved by heating at 75 ° C. Next, the oil phase component is added to the aqueous phase component and preliminary emulsification is performed, followed by uniform emulsification with a homomixer. Cooling is started after completion of emulsification, and (15) is added at 50 ° C. Cool further to 40 ° C, add (16) and mix evenly.
[0035]
[Example 9] Aqueous gel (1) Carboxyvinyl polymer 0.5 (% by weight)
(2) Purified water 86.4
(3) Sodium hydroxide (10% by weight aqueous solution) 0.5
(4) Ethanol 10.0
(5) Methyl paraoxybenzoate 0.1
(6) Fragrance 0.1
(7) Milkweed extract [Preparation method 4] 0.1
(8) Polyoxyethylene (60E.O.) hydrogenated castor oil 0.1
(9) Glycerin 2.0
(10) Willow milkweed extract [Preparation method 3] 0.1
(11) Milkweed extract [Preparation method 2] 0.1
Manufacturing method: (1) is added to (2), and after stirring uniformly, (3) is added. After stirring uniformly, add (5) previously dissolved in (4). After stirring uniformly, the previously mixed (6) to (8) are added. After stirring uniformly, (9) to (11) are sequentially added and mixed uniformly.
[0036]
[Example 10] Cleansing fee (1) Squalane 81.9 (% by weight)
(2) Polyoxyethylene glyceryl isostearate 15.0
(3) Purified water 3.0
(4) Milkweed extract [Preparation method 4] 0.05
(5) Willow milkweed extract [Preparation Method 4] 0.05
Manufacturing method: (1) and (2) are uniformly dissolved. To this, (3) to (5) are sequentially added and mixed uniformly.
[0037]
[Example 11] Face washing foam (1) Stearic acid 16.0 (wt%)
(2) Myristic acid 16.0
(3) Lipophilic glyceryl monostearate 2.0
(4) Glycerin 20.0
(5) Sodium hydroxide 7.5
(6) Palm oil fatty acid amidopropyl betaine 1.0
(7) Purified water 36.5
(8) Milkweed extract [Preparation method 3] 0.5
(9) Milkweed extract [Preparation method 2] 0.5
Production method: The oil phase components (1) to (4) are heated and dissolved at 80 ° C. On the other hand, the aqueous phase components (5) to (7) are heated and dissolved at 80 ° C., and mixed and stirred uniformly with the oil phase components. Cooling is started, and (8) and (9) are added at 40 ° C. and mixed uniformly.
[0038]
[Example 12] Make-up base cream (1) Squalane 10.0 (% by weight)
(2) Cetanol 2.0
(3) Glycerin tri-2-ethylhexanoate 2.5
(4) Lipophilic glyceryl monostearate 1.0
(5) Propylene glycol 11.0
(6) Sucrose fatty acid ester 1.3
(7) Purified water 70.4
(8) Titanium oxide 1.0
(9) Bengala 0.1
(10) Yellow iron oxide 0.4
(11) Fragrance 0.1
(12) Milkweed extract [Preparation method 2] 0.1
(13) Willow milkweed extract [Preparation method 1] 0.1
Production method: The oil phase components (1) to (4) are mixed and dissolved by heating at 75 ° C. On the other hand, the aqueous phase components (5) to (7) are mixed and dissolved by heating at 75 ° C., and the pigments (8) to (10) are added thereto and dispersed uniformly with a homomixer. The oil phase component is added to the water phase component and emulsified with a homomixer. Cooling is started after the emulsification is completed, and the components (11) to (13) are added at 40 ° C. and mixed uniformly.
[0039]

Production method: The oil phase components (1) to (6) are mixed and dissolved by heating at 75 ° C. On the other hand, the aqueous phase components (7) to (10) are mixed and dissolved by heating at 75 ° C., and the pigments (11) to (15) are added thereto and uniformly dispersed with a homomixer. Add oil phase ingredients and emulsify. Cooling is started after the emulsification is completed, and the components (16) to (18) are sequentially added at 40 ° C. and mixed uniformly.
[0040]
[Example 14] Water-in-oil emollient cream (1) Liquid paraffin 30.0 (wt%)
(2) Microcrystalline wax 2.0
(3) Vaseline 5.0
(4) Diglycerin oleate 5.0
(5) Sodium chloride 1.3
(6) Potassium chloride 0.1
(7) Propylene glycol 3.0
(8) 1,3-butylene glycol 5.0
(9) Methyl paraoxybenzoate 0.1
(10) Milkweed extract [Preparation method 1] 0.5
(11) Purified water 45.9
(12) Fragrance 0.1
(13) Milkweed extract [Preparation method 4] 2.0
Production method: Dissolve (5) and (6) in a part of (11) to 50 ° C., and gradually add to (4) heated to 50 ° C. with stirring. After mixing this, it disperse | distributes uniformly to (1)-(3) heated and melt | dissolved at 70 degreeC. (7) to (10) are added to the remainder of (11) heated and dissolved at 70 ° C. while stirring and emulsified with a homomixer. Cooling is started after the emulsification, and (12) and (13) are added at 40 ° C. and mixed uniformly.
[0041]
[Example 15] Hair artic (1) Ethanol 50.0 (wt%)
(2) Purified water 49.898
(3) Milkweed extract [Preparation method 3] 0.001
(4) Milkweed extract [Preparation method 4] 0.001
(5) Fragrance 0.1
Production method: Components (1) to (5) are mixed and homogenized.
[0042]
[Example 16] Pack (1) 68.9 (% by weight) purified water
(2) Polyvinyl alcohol 12.0
(3) Ethanol 10.0
(4) Glycerin 5.0
(5) Polyethylene glycol (average molecular weight 1000) 2.0
(6) Willow milkweed extract [Preparation method 1] 1.0
(7) Milkweed extract [Preparation method 2] 1.0
(8) Fragrance 0.1
Production method: (2) and (3) are mixed, heated to 80 ° C, and then dissolved in (1) heated to 80 ° C. After uniformly dissolving, (4) to (5) are added, and cooling is started while stirring. Cool to 40 ° C., add (6) to (8) and mix uniformly.
[0043]

Production method: The oil phase components (1) to (6) are mixed and heated and dissolved at 75 ° C. On the other hand, the aqueous phase components (7) to (10) are dissolved by heating at 75 ° C., the oil phase component is added, and the mixture is emulsified with a homomixer. Cooling is started after the emulsification is completed, and the components (11) to (13) are added at 40 ° C. and mixed uniformly.
[0044]
[Example 18] Bath agent (1) Fragrance 0.3 (% by weight)
(2) Milkweed extract [Preparation method 1] 0.5
(3) Milkweed extract [Preparation method 3] 0.5
(4) Sodium bicarbonate 50.0
(5) Sodium sulfate 48.7
Production method: (1) to (5) are mixed uniformly.
[0045]
Examples 1 to 5 of the present invention were subjected to use tests to evaluate the effect of improving wrinkles, tarmi and skin firmness. At that time, in Example 1, the blended milkweed extract was replaced with purified water, and a use test was simultaneously conducted as Comparative Example 1.
[0046]
For each sample, a group of 20 male and female panelists in their 50s and 60s who have noticeable symptoms such as wrinkles, tarmi, and reduced skin firmness, were used blindly for 1 month, and the skin condition before and after use Changes were observed and evaluated. As indices of skin symptoms, wrinkles, tarmi, and skin firmness were evaluated in three stages, “improved”, “slightly improved”, and “no change”, and Table 4 shows the number of panelists that obtained each evaluation.
[0047]
[Table 4]

[0048]
As shown in Table 4, the wrinkles, tarmi, and skin firmness were not improved in more than half of the panelers in the comparative example use group not containing the extract of the plant of the genus Asclepias , but the plant of the genus Asclepias In the example use group containing the extract, a clear improvement was observed in 60% or more of the panelists.
[0049]
As mentioned above, in the Example of this invention, it had the effect excellent in improvement of the aging symptom, such as a wrinkle, a talmi, and skin elasticity, compared with the conventional comparative example.
[0050]
【The invention's effect】
As described above in detail, according to the present invention, a cell activator and an antioxidant having excellent effects could be obtained. Moreover, the skin external preparation which has the effect excellent in prevention and improvement of the skin aging symptom was able to be obtained by mix | blending the cell activator and antioxidant which were such as an active ingredient.

Claims (4)

Asclepiadaceae Asclepias (Asclepias) 1 or more kinds of dermal fibroblasts activator as an active ingredient an extract of plants of the plant (Asclepiadaceae). Dermal fibroblasts activator according to claim 1 Asclepias (Asclepias) plant is a milkweed (Asclepias curassavica L.) of Asclepiadaceae (Asclepiadaceae). Asclepiadaceae Asclepias (Asclepias) an antioxidant as an active ingredient one or more kinds of plant extracts of plants (Asclepiadaceae). Antioxidant according to claim 3 Asclepias (Asclepias) plant is a milkweed (Asclepias curassavica L.) of Asclepiadaceae (Asclepiadaceae).