JP3661981B2 - Antiperspirant - Google Patents

Description

【００２７】
上記実施例７〜実施例１５及び比較例１を用いて使用試験を行った。２０才代の男女パネラー２０名を一群とし、４０℃の温水でシャワーを５分間浴びた後水分をふき取り、制汗剤を腋下に塗布し、３０℃，相対湿度６５％に設定された環境試験室で一時間経過後の発汗状態を評価した。パネラーの評価基準は、１；効果無し，２；やや効果有り，３；効果有り，４；非常に効果有りとし、評価値の合計を算出し、次に示す基準にてスコアを決定した。結果は表１にあわせて示した。
【００２８】
スコア１：評価値合計 ０以上 ２０以下
スコア２：評価値合計 ２１以上 ４０以下
スコア３：評価値合計 ４１以上 ６０以下
スコア４：評価値合計 ６１以上 ８０以下
【００２９】
表１に示したとおり、本発明の実施例に係る大豆抽出物又はイソフラボン類を含有する実施例７〜実施例１５においては、高い制汗効果を示していたが、大豆抽出物及びイソフラボン類を含有しない比較例１においては、制汗効果が認められなかった。また、実施例７と実施例８，実施例１２と実施例１３，実施例１４と実施例１５をそれぞれ比較すると、後者は前者より大豆抽出物及びイソフラボン類の配合量が少ないにもかかわらず、前者と同様の制汗効果を示しており、エタノールの添加により大豆抽出物及びイソフラボン類の制汗効果が相乗的に高まっていることが示された。
【００３０】
表２に示す処方にて液状制汗剤を調製し、上記と同様に制汗効果を評価した。結果は、表２にあわせて示した。
【００３１】
【表２】

【００３２】
表３に示す処方で水性制汗剤を調製し、上記と同様に制汗効果を評価して、結果を表３に併せて示した。
【００３３】
【表３】

【００３４】
［実施例３０］化粧下地
(１)ステアリン酸 ０．２(重量％)
(２)セタノール １．５
(３)ワセリン ３．０
(４)流動パラフィン ７．０
(５)ポリオキシエチレン(10EO)モノオレイン酸エステル １．５
(６)酢酸トコフェロール ０．５
(７)グリセリン ５．０
(８)パラオキシ安息香酸メチル ０．１
(９)トリエタノールアミン １．０
(10)精製水 ７５．２
(11)実施例４ ２．５
(12)エタノール ２．５
製法：(１)〜(６)の油相成分を混合，加熱して均一に溶解し、７０℃に保つ。一方、(７)〜(10)の水相成分を混合，加熱して均一とし、７０℃とする。この水相成分に前記油相成分を撹拌しながら徐々に添加して乳化後、冷却し、５０℃にて(11)を(12)に溶解して添加、混合均一化する。
【００３５】
［実施例３１］紫外線防御クリーム
(１)スクワラン ３８．００(重量％)
(２)グリセリンジイソステアリン酸エステル ３．００
(３)パラメトキシ桂皮酸2-エチルヘキシル ３．００
(４)オキシベンゾン １．５０
(５)有機変性ベントナイト １．５０
(６)シリコーン処理酸化チタン ３．００
(７)1,3-ブチレングリコール ５．００
(８)パラオキシ安息香酸メチル ０．１０
(９)精製水 ４２．８９
(10)実施例５ ０．０１
(11)エタノール ２．００
製法：(１)〜(４)を混合，加熱して溶解し、(５)，(６)を分散して７０℃とし、油相とする。一方、(８)を(７)に溶解して(９)に加えて混合し、７０℃に加熱し、水相とする。前記油相に水相を添加し、ホモジナイザー処理して乳化後冷却し、５０℃にて、(10)を(11)に溶解して添加し、混合，均一化する。
【００３６】
［実施例３２］乳液状ファンデーション
(１)ステアリン酸 ２．０(重量％)
(２)スクワラン ５．０
(３)ミリスチン酸オクチルドデシル ５．０
(４)セタノール １．０
(５)デカグリセリルモノイソパルミチン酸エステル ９．０
(６)1,3-ブチレングリコール ６．０
(７)水酸化カリウム ０．１
(８)パラオキシ安息香酸メチル ０．１
(９)精製水 ５０．７
(10)酸化チタン ９．０
(11)タルク ７．４
(12)ベンガラ ０．５
(13)黄酸化鉄 １．１
(14)黒酸化鉄 ０．１
(15)実施例２ ３．０
製法：(１)〜(５)の油相成分を混合，加熱して均一に溶解し、７５℃に保つ。一方、(６)〜(９)の水相成分を混合，加熱して均一とし、これに(10)〜(14)を加えてホモミキサーにて均一に分散した後、７５℃とする。この水相成分に前記油相成分を添加して予備乳化した後、ホモミキサーにて均一に乳化し、冷却後４０℃で(15)を添加，混合する。
【００３７】
［実施例３３］油性軟膏型ファンデーション
(１)固形パラフィン ３．０(重量％)
(２)マイクロクリスタリンワックス ６．０
(３)ミツロウ ２．０
(４)ワセリン １２．０
(５)酢酸ラノリン １．０
(６)スクワラン ６．０
(７)パルミチン酸イソプロピル １６．０
(８)ビタミンＥ ０．２
(９)タルク １７．６
(10)カオリン １５．０
(11)酸化チタン １５．０
(12)ベンガラ １．０
(13)黄酸化鉄 ３．０
(14)黒酸化鉄 ０．２
(15)実施例３ ２．０
製法：(１)〜(８)を８５℃で溶解し油相とする。(９)〜(14)を十分混合，粉砕して、油相に添加し、コロイドミルで磨砕分散し、(15)を添加，混合して脱気した後、７０℃で容器に流し込んで冷却する。
【００３８】
実施例３０〜実施例３３を用いて上記の方法で制汗効果を評価したところ、全ての実施例において良好な制汗効果が認められた。
【００３９】
次に実施例３１について、紫外線防御効果の持続性の評価を行った。紫外線防御効果の持続性については、２０代の男女２０名を一群とし、実施例３１又は、実施例３１処方中の実施例５,ダイゼインを精製水に代替して調製した比較例２を、左右の上腕部にそれぞれ塗布し、晴天真夏の屋外にて６時間自由に行動させ、紫外線防御効果を比較した。その結果、２０名中１７名のパネラーが実施例の方が紫外線防御効果の持続性が高いと回答し、ダイゼインを制汗剤として配合することにより、紫外線防御効果の持続性が向上したことが示された。
【００４０】
さらに、実施例３２，実施例３３、及びそれぞれに含有する大豆抽出物をエタノールに代替して調製した比較例３，比較例４を用いて化粧持ちの評価を行った。２０代の女性２０名を一群とし、実施例３２と比較例３、又は実施例３３と比較例４をそれぞれ半顔ずつ使用させ、化粧持ちを比較した。その結果、実施例３２においては２０名全員が、実施例３３においては１９名が実施例の方が化粧持ちがよいと評価した。このことにより、本発明の大豆抽出物を制汗剤として配合することにより、化粧持ちが明らかに向上することが示された。
【００４１】
【発明の効果】
以上詳述したように、大豆抽出物及びイソフラボンを有効成分として含有する制汗剤は、粉体を配合せずとも十分な制汗効果を得ることができ、さらにエタノールを併用することによりその制汗効果が相乗的に向上する。また、この制汗剤を紫外線防御剤やメイクアップ化粧料に配合することにより、紫外線防御効果の持続性が高まり、メイクアップ化粧料の化粧持ちが向上した。[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a soy extract and an antiperspirant containing isoflavones contained in the soy extract as an active ingredient, and a skin external preparation containing this antiperspirant and having a long-lasting cosmetic effect.
[0002]
[Prior art]
Conventional antiperspirants are widely used in which powders such as chlorohydroxyaluminum, silicic anhydride, and talc are dispersed in a liquid solvent. However, such an antiperspirant has problems such as whitening of the coated surface during application, powder aggregation with time, and the inability to use or reduced effectiveness.
[0003]
On the other hand, soy-derived components are widely used in skin preparations, soy oil is used for the purpose of preventing drying and protecting the skin, soy lecithin is used as an emulsifying aid, and soy extract is used as a moisturizing component. In addition, isoflavones contained in soybean are known to have an estrogen-like action and a melanin production inhibitory action (Patent Registration No. 1294411).
[0004]
[Problems to be solved by the invention]
In the present invention, to obtain an antiperspirant capable of obtaining a sufficient antiperspirant effect without blending powder, and to obtain a skin external preparation having a long-lasting cosmetic effect by containing an antiperspirant. Aimed.
[0005]
[Means for Solving the Problems]
The present inventor has continued research on active ingredients of extracts derived from natural plants, and that soy extract exhibits a high antiperspirant effect, and isoflavones that are mainly contained in the soy extract. As a result, the present invention has been completed.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described.
[0007]
In the present invention, the soybean extract used is a soybean ( Glycine max Merrill) fruit extracted with a solvent. As the soybean seeds, raw soybeans may be used as they are or heat-treated ones may be used. Furthermore, you may use the soybean extract obtained by extracting from soybeans after preparing soybean meal and tofu which squeezed soybean oil. Further, the extraction operation and the extraction solvent are not particularly limited as long as they are extraction methods and solvents for plant extracts that are usually used for external preparations for skin. However, an extraction method that contains a large amount of isoflavones in the extract should be selected. Is preferred.
[0008]
As a method for extracting soybean, a method in which a pulverized soybean is dispersed in one or more aqueous solvents selected from water, ethanol, 1,3-butylene glycol and the like, and extracted by ultrasonic treatment is preferable.
[0009]
In addition, soaked soybeans in petroleum ether, heated under reflux, extracted lipid-soluble components such as lipids and plant sterols, filtered to remove the residue, and again in methanol with reflux And the filtrate can be used as a soybean extract.
[0010]
In the present invention, the soybean extract can be used as it is, or can be used after purification such as decolorization and fractionation. Furthermore, isoflavones can be isolated from the extract and used. Good. Commercially available isolated isoflavones can also be used as they are.
[0011]
In the present invention, isoflavones can be used singly or in combination of two or more, and can also be used in the form of a plant extract containing isoflavones.
[0012]
The isoflavones used in the present invention are not particularly limited as long as they are isoflavones contained in the soybean extract, daidzein (4,7′-dihydroxyisofubon), daidzin (daidzein-7-glucoside), malonyl daidzin ( 6 "-O-malonyl-daidine), acetyldidine (6" -O-acetyl-daidine), genistin (4 ', 5,7-trihydroxyisoflavone-7-glucoside), malonylgenistin (6 "-O-malonyl) -Genistin), acetylgenistin (6 "-O-acetyl-genistin), glycitein (7,4'-dihydroxy-6-methoxyisoflavone), glycitin (glycitein-7-glucoside), malonylglycitin (6" -O- Examples include malonyl-glycitin) and acetylglycitin (6 "-O-acetyl-glycitin).
[0013]
In the present invention, the blending amount of the soybean extract in the antiperspirant is preferably 0.01 to 10% by weight, and more preferably 0.1% by weight or more from the viewpoint of the effect. Moreover, as an isoflavone compound, 0.001-1 weight% is preferable in an antiperspirant prescription, and even if it is 0.1 weight% or less, sufficient effect is exhibited. In addition, since the isoflavone compound has low solubility in water, when it exceeds 0.1% by weight, it is necessary to use an appropriate dispersant in the formulation or use an isoflavone-soluble solvent such as ethanol.
[0014]
Moreover, in this invention, the antiperspirant effect of a soybean extract and isoflavones improves synergistically by using ethanol together.
[0015]
The antiperspirant according to the present invention can be provided in a dosage form such as a lotion type, emulsion, gel, cream, ointment and the like, and further provided as an aerosol type in which a preparation of these dosage forms is injected with a gas or the like. be able to. Furthermore, in this invention, it can mix | blend with the usual skin external preparation generally, without being caught by the concept of the conventional antiperspirant.
[0016]
Furthermore, the antiperspirant according to the present invention includes powders, fats and oils, lower alcohols, polyhydric alcohols, surfactants, moisturizers, cell activators, and bactericides, as long as the characteristics of the present invention are not impaired. The raw materials and additives usually used in antiperspirants, such as odor control agents, deodorants, preservatives, ultraviolet absorbers, and fragrances, can be included.
[0017]
In the present invention, soybean extract and isoflavones can also be blended in UV protection agents and makeup cosmetics. In this case, in UV protection agents, the improvement in the durability of UV protection effects is achieved. Improvement of makeup retention is recognized.
[0018]
【Example】
The contents of the present invention will be described in detail using examples.
[0019]
[Example 1] Soybean extract 1
100 g of soybean seed is pulverized, dispersed in 10 liters of water, and sonicated at 50 ° C. for 30 minutes. The filtrate filtered after the treatment is concentrated to 100 ml under reduced pressure to obtain soybean extract 1.
[0020]
[Example 2] Soybean extract 2
100 g of soybean seeds are pulverized, dispersed in 1 liter of absolute ethanol, and sonicated at 5 ° C. for 30 minutes under cooling. The filtrate filtered after the treatment is concentrated to 100 ml under reduced pressure to obtain soybean extract 2.
[0021]
[Example 3] Soybean extract 3
The extraction solvent in soybean extract 1 is changed from water to 50% by weight 1,3-butylene glycol, extracted in the same manner, dried under reduced pressure, dissolved in absolute ethanol to 100 ml.
[0022]
[Example 4] Soybean extract 4
100 g of soybean is pulverized with a pulverizer, immersed in 200 ml of petroleum ether, heated under reflux to extract lipid-soluble components such as lipids and plant sterols, and then filtered to remove the residue. 200 ml of ethanol is added to the residue, and a warm extraction operation is performed under reflux. After the extraction is completed, the filtrate is collected by filtration and concentrated under reduced pressure. Then, a saturated aqueous solution of lead acetate is added to remove the pale yellow precipitate, and a saturated aqueous solution of basic lead acetate is added to the filtrate to obtain a yellow precipitate. The product is collected by filtration, suspended in ethanol, completely deleaded using hydrogen sulfide or the like, and the filtrate is evaporated to dryness to obtain a pale yellow powder. In this product, an extract containing about 2 to 6 kinds of isoflavone compounds can be obtained in addition to daidzein, daidzin, genistin and genistein.
[0023]
[Examples 5 and 6] Isoflavone compound isolation Powder containing isoflavone compound obtained from soybean extract 4 was dissolved in water-saturated butanol, alumina was used as an adsorbent, and water-saturated butanol was used as a developing agent. When the column chromatography is performed and observed under ultraviolet light, a purple-blue fluorescent band can be confirmed. The respective fluorescent bands are fractionated to isolate daidzein and genistin, which are referred to as Example 5 and Example 6, respectively. .
[0024]
Examples of the antiperspirant and the external preparation for skin using the soybean extract and the isolated isoflavone shown in Examples 1 to 6 are shown below.
[0025]
The antiperspirants of Examples 7 to 15 and Comparative Example 1 blended with the soybean extract and isoflavones of Examples 1 to 6 shown in Table 1 were prepared according to the following formulation.
[Examples 7 to 15, Comparative Example 1] Aerosol antiperspirant
(1) Zinc oxide 0.5 (wt%)
(2) Purified water Amount that makes the total amount 100
(3) Polyoxyethylene nonylphenyl ether 0.5
(4) Soybean extract and isoflavones shown in Table 1
(5) Liquefied petroleum gas 50.0
Production method: (1) to (4) are uniformly mixed and dispersed, and filled into an aerosol can together with (5) to obtain an aerosol antiperspirant.
[0026]
[Table 1]

[0027]
Using tests were conducted using Examples 7 to 15 and Comparative Example 1 described above. A group of 20 male and female panelists in their 20s, taking a shower with warm water at 40 ° C for 5 minutes, wiping off moisture, applying antiperspirant under the armpit, 30 ° C and 65% relative humidity The sweating state after 1 hour was evaluated in the test room. Panel evaluation criteria were 1; no effect, 2; somewhat effective, 3; effective, 4; very effective. The total evaluation value was calculated, and the score was determined according to the following criteria. The results are shown in Table 1.
[0028]
Score 1: Total evaluation value 0 or more and 20 or less Score 2: Total evaluation value 21 or more and 40 or less Score 3: Total evaluation value 41 or more and 60 or less Score 4: Total evaluation value 61 or more and 80 or less
As shown in Table 1, in Examples 7 to 15 containing the soybean extract or isoflavones according to the examples of the present invention, the antiperspirant effect was shown, but the soybean extract and isoflavones were used. In Comparative Example 1 containing no antiperspirant effect was observed. In addition, when comparing Example 7 and Example 8, Example 12 and Example 13, Example 14 and Example 15, respectively, the latter has a smaller amount of soybean extract and isoflavones than the former, The antiperspirant effect was similar to the former, and it was shown that the antiperspirant effect of the soybean extract and isoflavones synergistically increased with the addition of ethanol.
[0030]
A liquid antiperspirant was prepared according to the formulation shown in Table 2, and the antiperspirant effect was evaluated in the same manner as described above. The results are shown in Table 2.
[0031]
[Table 2]

[0032]
An aqueous antiperspirant was prepared with the formulation shown in Table 3, and the antiperspirant effect was evaluated in the same manner as described above. The results are also shown in Table 3.
[0033]
[Table 3]

[0034]
[Example 30] Makeup base
(1) Stearic acid 0.2 (% by weight)
(2) Cetanol 1.5
(3) Vaseline 3.0
(4) Liquid paraffin 7.0
(5) Polyoxyethylene (10EO) monooleate 1.5
(6) Tocopherol acetate 0.5
(7) Glycerin 5.0
(8) Methyl paraoxybenzoate 0.1
(9) Triethanolamine 1.0
(10) Purified water 75.2
(11) Example 4 2.5
(12) Ethanol 2.5
Production method: The oil phase components (1) to (6) are mixed, heated and uniformly dissolved, and kept at 70 ° C. On the other hand, the aqueous phase components (7) to (10) are mixed and heated to be uniform, and set to 70 ° C. The oil phase component is gradually added to the water phase component with stirring, emulsified and cooled, and (11) is dissolved in (12) at 50 ° C. and added to homogenize.
[0035]
[Example 31] UV protection cream
(1) Squalane 38.00 (wt%)
(2) Glycerin diisostearate ester 3.00
(3) 2-ethylhexyl paramethoxycinnamate 3.00
(4) Oxybenzone 1.50
(5) Organically modified bentonite 1.50
(6) Silicone-treated titanium oxide 3.00
(7) 1,3-butylene glycol 5.00
(8) Methyl paraoxybenzoate 0.10
(9) Purified water 42.89
(10) Example 5 0.01
(11) Ethanol 2.00
Production method: (1) to (4) are mixed and heated to dissolve, and (5) and (6) are dispersed to 70 ° C. to obtain an oil phase. On the other hand, (8) is dissolved in (7), added to (9), mixed, and heated to 70 ° C. to obtain an aqueous phase. The aqueous phase is added to the oil phase, the mixture is emulsified by emulsion treatment, cooled, and added at 50 ° C. by dissolving (10) in (11) and mixing and homogenizing.
[0036]
[Example 32] Emulsion foundation
(1) Stearic acid 2.0 (wt%)
(2) Squalane 5.0
(3) Octyldodecyl myristate 5.0
(4) Cetanol 1.0
(5) Decaglyceryl monoisopalmitate 9.0
(6) 1,3-butylene glycol 6.0
(7) Potassium hydroxide 0.1
(8) Methyl paraoxybenzoate 0.1
(9) Purified water 50.7
(10) Titanium oxide 9.0
(11) Talc 7.4
(12) Bengala 0.5
(13) Yellow iron oxide 1.1
(14) Black iron oxide 0.1
(15) Example 2 3.0
Production method: The oil phase components (1) to (5) are mixed, heated and uniformly dissolved, and kept at 75 ° C. On the other hand, the aqueous phase components (6) to (9) are mixed and heated to be uniform, and (10) to (14) are added thereto and uniformly dispersed with a homomixer, and then set to 75 ° C. The oil phase component is added to the aqueous phase component and pre-emulsified, and then uniformly emulsified with a homomixer. After cooling, (15) is added and mixed at 40 ° C.
[0037]
[Example 33] Oily ointment type foundation
(1) Solid paraffin 3.0 (wt%)
(2) Microcrystalline wax 6.0
(3) Beeswax 2.0
(4) Vaseline 12.0
(5) Lanolin acetate 1.0
(6) Squalane 6.0
(7) Isopropyl palmitate 16.0
(8) Vitamin E 0.2
(9) Talc 17.6
(10) Kaolin 15.0
(11) Titanium oxide 15.0
(12) Bengala 1.0
(13) Yellow iron oxide 3.0
(14) Black iron oxide 0.2
(15) Example 3 2.0
Production method: (1) to (8) are dissolved at 85 ° C. to obtain an oil phase. (9)-(14) are thoroughly mixed and pulverized, added to the oil phase, ground and dispersed in a colloid mill, (15) is added, mixed and degassed, then poured into a container at 70 ° C. Cooling.
[0038]
When the antiperspirant effect was evaluated by the above method using Examples 30 to 33, good antiperspirant effects were observed in all of the Examples.
[0039]
Next, about Example 31, the sustainability evaluation of the ultraviolet-ray protective effect was performed. About the durability of UV protection effect, 20 men and women in their 20s are grouped, and Example 31 or Comparative Example 2 prepared by substituting purified water for Example 5 or daidzein in the formulation of Example 31 Each was applied to the upper arm and allowed to act freely for 6 hours outdoors in sunny summer. As a result, 17 out of 20 panelists answered that the examples had higher durability of UV protection, and the combination of daidzein as an antiperspirant improved the durability of UV protection. Indicated.
[0040]
Furthermore, the cosmetic durability was evaluated using Example 32, Example 33, and Comparative Example 3 and Comparative Example 4 prepared by substituting ethanol for the soybean extract contained therein. A group of 20 women in their twenties were used, and Example 32 and Comparative Example 3 or Example 33 and Comparative Example 4 were used in half-faces, respectively, and the makeup duration was compared. As a result, in Example 32 all 20 people evaluated that in Example 33, the Example had better makeup. From this, it was shown that the cosmetic durability is clearly improved by blending the soybean extract of the present invention as an antiperspirant.
[0041]
【The invention's effect】
As described above in detail, an antiperspirant containing soybean extract and isoflavone as active ingredients can obtain a sufficient antiperspirant effect without the addition of a powder, and further can be controlled by using ethanol together. Sweat effect improves synergistically. Also, by blending this antiperspirant into UV protection agents and makeup cosmetics, the durability of the UV protection effect was increased and the makeup of makeup cosmetics was improved.

Claims (3)

  Antiperspirant containing isoflavones contained in soybean extract.   Antiperspirant containing one or more isoflavones selected from daidzin, malonyl daidzin, acetyl daidzin, daidzein, genistin, malonyl genistin, acetyl genistin, glycitin, malonyl glycitin, acetyl glycitin, glycitein.   The antiperspirant according to claim 1 or 2, comprising ethanol.