Wet napkins favorably treating skin

FIELD: medical engineering.

SUBSTANCE: device has emulsion composition of oil-in-water type containing natural fat or oil, sterol or sterol derivatives, moisture trap, emulsifying surfactant and water.

EFFECT: improved skin state.

55 cl, 4 tbl

The scope of the invention

The present invention relates to wet wipes and product type wipes. More specifically, the present invention particularly relates to wet wipes and product type wipes that can be used for a variety of purposes, including cleaning, removal of cosmetics and Wellness, which include emulsion composition of the type oil-in-water, which cleans the surface of the skin and render it superior beneficial effect.

Prior

The stratum corneum is the top layer of skin, provides for the regulation of water content in the skin and acts as a barrier for protection from exposure to chemicals and other causes stress environmental factors. Complex distribution of lipids in the intercellular space of the stratum corneum provides the creation of normal barrier function. The layered structure consisting of cholesterol, ceramides and fatty acids, and small amounts of other lipids, creating a major barrier to the migration of hydrophilic substances across the skin and through the skin. The relationship between barrier function and skin condition can be seen when the skin irritation, which is a consequence of the extraction of lipids from the skin.

But irritation impaired barrier function of the skin can be caused by a host is poison pathological conditions of the skin, the most striking example of which is dry skin. For the treatment of dry skin often use moisturizers that contain chemicals to seal the skin, and water-retaining substance.

Diaper dermatitis of infants and adults is the type of pathological condition of the skin, which is largely due to impaired barrier function. Breach of the skin barrier can be caused by various factors, including an increase in skin hydration due to clogging of the skin caused by diapers, enzyme skin damage caused by enzymes from urine and feces, mechanical abrasion caused by the diapers, pads and wet wipes, and loss of skin lipids, caused by surfactants in force when washing and cleaning.

The clogging of the skin causes an increase in skin moisture as a result of blocking water losses occurring during the evaporation from the surface of the skin. The degree of moisture of the skin while wearing the diaper may be five to ten times higher than in its absence. Frequent contact located under the nappy skin with urine can also help improve the skin's moisture. The increased humidity of the skin disrupts the organization of skin lipids in the stratum corneum. This disorder can increase the permeability of the skin and irritating the substances, contained in the faeces and urine will penetrate the skin.

The results of tests conducted on naked mice, showed that the fecal enzymes, namely protease and lipase, are primary skin irritants in the environment under the diapers. Protease faeces destroy proteins of the stratum corneum, leading to inflammatory reactions and facilitates penetration of low-molecular irritants in the skin. Discovered that the urine increases the pH of the skin and thereby contributes to the effect of enzymes on the skin and also causes an inflammatory reaction of the skin.

When wearing diapers skin is usually cleaned with wipes Terry cotton cloth or disposable wet wipes. The impact of wet wipes on the skin depends on the materials and systems of surface-active substances used in the manufacture of napkins. When wearing diapers skin usually are cleaned several times a day with wipes containing solutions of surface-active substances. It is known that surface-active substances extracted lipids from the stratum corneum or disturb the organization of the lipid structure in the stratum corneum, thereby weakening the barrier function. The material wipes and product type wipes can damage the skin due to mechanical attrition effects and can lead to uvelicena.stabilnaya water loss, that indicates a weakening of the barrier function. Other reasons for breaking the barrier functions of the skin are often hand washing and contact dermatitis that occurs when exposed to harsh surfactants and other chemical irritants.

Immediately after the damage of the skin barrier in the skin begins to leak some of the processes of synthesis and organization of lipids, the purpose of which is to restore the barrier function. The body naturally heals disorders of the skin barrier function by increasing production of major lipids found in the skin, such as cholesterol, ceramides and fatty acids, and essential enzymes that synthesize lipids. Two well-known external effects inhibit the natural repair mechanisms of the skin barrier is broken due to wear of the diaper. The first impact is neutral reaction of the skin and other effects is a blockage of the skin. Therefore, chronic exposure to urine and feces, as well as the continued blockage of the skin lead to chronic disruption of the skin barrier function.

Wipes are well known for selling consumer goods that are available in various forms. Apparently, the most common form of wet wipes is a stack of moistened sheet is s, Packed in a plastic container. Wipes produced from various materials that hydrate using a variety of suitable solutions of mild surfactants. Such uverennye napkins used as napkins for babies, wipes for hands, household cleaning wipes, industrial wipes, wipes for face and body, etc.

Typically, such conventional wipes contain a single layer in a largely homogenous material. For example, the usual wipes contain obtained aerodynamic method the material of the fibers, which are evenly mixed or distributed through the material. Wipes contain polymer fibers, such as polyester, polyethylene and polypropylene, and natural and synthetic fibers, such as cellulosic fibers. Other common moistened wipes contain jointly molded material of polypropylene and cellulose fibers, and the fiber material is uniformly mixed.

However, other forms of napkins and product type wipes are a cloth containing a layered substrate of non-woven material. The layered substrate may include at least two layers located next to each other, and one of the layers comprises fibers, which are not included in the second layer. Can use the I'm such a structure, at least one of the layers comprises polyethylene fiber, and at least one other layer comprises polypropylene fibers. In another form the layers may include the same materials but in different quantities. Different layers can be formed so that the napkin was acquired different physical characteristics, such as softness, while the other layer may be formed so that the napkin was acquired another physical characteristic, such as strength.

Was not fully optimized balance of physical characteristics, such as softness, flexibility, strength, integrity and elasticity. To enhance the performance of finished products, such as napkins and product type wipes, you can use a chemical treatment of the surface. This is especially important for consumers who want to improve skin condition, or get the opportunity to make the skin improved performance. The ability of a product type wipes to have a beneficial effect on the skin or beneficial effect on the skin, provided by product type wipes, may be particularly important in the case of the napkin body, which are intended for repeated contact with the skin of adults and infants.

In the art the necessary products that help to maintain the barrier function to the MS, especially in the environment under the diaper, such as napkins and product type wipes that: (a) applied to the skin suitable chemicals, which improve the condition of the skin barrier; (b) minimize mechanical damage to the skin when wiping; (C) make the skin soft and elastic to the touch; and d) provide long-lasting beneficial effects to the next, while effectively wiping clean and provide improved skin barrier.

Brief description of the invention

Now it is established that the improved napkin and product type wipes used for a variety of purposes, including cleaning, removal of cosmetics and health improvement that improves the skin barrier, can be produced by coating, impregnation or carried out by another way moisturizing wipes or product type wipes using emulsion compositions of the type oil-in-water containing natural fat or oil, a Sterol or a derivative of a Sterol, a water retaining agent, emulsifying surfactants and combinations of surfactants with products HLB value, a measure of the hydrophilic-lipophilic balance)in the range from about 7 to about 18, and water. This composition is also easy to carry with wipes and paper type wipes on the skin-contact sheet, improving the character of the sticks of the skin barrier, and ensures the use of the product in accordance with its purpose.

Therefore, in one embodiment, the present invention relates to emulsion compositions of the type oil-in-water, including from about 0.1 to about 30 wt.% natural fats or oils, from about 0.1 to about 10 wt.% Sterol or a derivative of a Sterol, from approximately 0.1 to approximately 99.5 wt.% water-retaining substance and from about 0.5 to about 20 wt.% emulsifying surfactants with products HLB in the range from about 7 to about 18, from about 45 to approximately 99.5 wt.% water and the pH value of which is set equal to from about 4 to about 7. Regulation of the pH of the composition can be performed using any acid or any base known in the art. One example of the acid is malic acid. The composition optionally can include from about 0 to about 30 wt.% vaseline or mineral oil.

Detailed description of the invention

The present invention relates to wet wipes and products such as napkins, which contained the emulsion compositions of the type oil-in-water have the ability to improve the skin condition. Wipes and product type wipes corresponding to the present invention, it is possible and what to use as napkins for babies, wipes for adults, wipes hand wipes for the face, cosmetic wipes, household wipes, industrial wipes, cleansing wipes for personal hygiene, cotton balls and swabs with cotton tips, etc.

One of the variants of the present invention is cloth and product type wipes, which improves the condition of the skin barrier and includes at least one emulsion layer and a composition of the type oil-in-water. The emulsion composition of the type oil-in-water may include from about 0.1 to about 30 wt.% natural fats or oils, from about 0.1 to about 10 wt.% Sterol or a derivative of a Sterol, from about 0.1 to about 30 wt.% water-retaining substance, from about 0.5 to about 20 wt.% emulsifying surfactants with products HLB value in the range from about 7 to about 18, and from approximately 45 to approximately 99.5 wt.% water. The emulsion composition may have a pH of from about 4 to about 7. Adjustment of pH can be accomplished using malic acid. The amount of emulsion compositions of the type oil-in-water contained in each napkin and product type wipes may be in the range of from about 150 to about 600%, based on the weight of items.

Water contained in the composition may predstavljaetsja a mixture of water and alcohol. The preferred alcohols are ethanol and isopropyl alcohol. The amount of alcohol in water is about 70 wt.%, contained in the solution of water in alcohol. More preferably, the amount of alcohol in water ranged from about 40 to about 60 wt.%, contained in the solution of water in alcohol.

Natural fat or oil used in the composition may be an oil, borrajo, avocado oil or sunflower oil. Sterol and derived Sterol used in the composition may be a soy Sterol, avocado sterols and cholesterol. Water-holding substance used in the composition may be a glycerol, sorbitol and propylene glycol. Emulsifying surfactant used in the composition may be literallayout SE, emulsifying wax NF, and propilengikolya SE. The composition may further include from about 0.1 to about 30 wt.% vaseline or mineral oil.

Another option of the present invention is a method of manufacturing cloth and product type wipes, comprising: (a) providing at least a single layer of nonwoven material; (b) the application of this non-woven material emulsion compositions of the type oil-in-water containing natural fat or oil, a Sterol or a derivative of a Sterol, water-holding vases is in and emulsifying surfactant, with products HLB value in the range from about 7 to about 18; and (C) the cutting of this material on separate sheets with the formation of wipes or product type wipes. In some cases, the specified product is impregnated emulsion composition of the type oil-in-water.

Another embodiment of the present invention is made of non-woven material product type wipes, which improves the characteristics of the skin barrier and contains the emulsion composition of the type oil-in-water. The emulsion composition of the type oil-in-water may include from about 0.1 to about 30 wt.% natural fats or oils, from about 0.1 to about 10 wt.% Sterol or a derivative of a Sterol, from about 0.1 to about 30 wt.% water-retaining substance, from about 0.5 to about 20 wt.% emulsifying surfactants with products HLB value in the range from about 7 to about 18, and from approximately 45 to approximately 99.5 wt.% water. The emulsion composition may have a pH of from about 4 to about 7. Adjustment of pH can be accomplished using malic acid.

Water contained in the composition may be a mixture of water and alcohol. The preferred alcohols are ethanol and isopropyl alcohol. The amount of alcohol in the e is about 70 wt.% water-alcohol solution. More preferably, the amount of alcohol in water ranged from about 40 to about 60 wt.% water-alcohol solution.

Another option of the present invention is a method of manufacturing cloth and product type wipes, comprising: (a) providing a nonwoven material; (b) the application of this non-woven material emulsion compositions of the type oil-in-water containing natural fat or oil, a Sterol or a derivative of a Sterol, a water retaining agent and emulsifying surfactant having products HLB value in the range from about 7 to about 18;

(C) cutting of this material into separate pieces with the formation of the product type wipes or components of a product type wipes. In some cases, the specified product is impregnated emulsion composition of the type oil-in-water.

Another option of the present invention is an emulsion composition of type oil-in-water, including from about 0.1 to about 30 wt.% natural fats or oils, from about 0.1 to about 10 wt.% Sterol or a derivative of a Sterol, from about 0.1 to about 30 wt.% water-retaining substance, from about 0.5 to about 20 wt.% emulsifying surfactants with products HLB value in the range from about 7 to about 18, from about 45 to use the but of 99.5 wt.% water. The emulsion composition may also include from about 0 to about 30 wt.% vaseline or mineral oil. The emulsion composition may have a pH of from about 4 to about 7. Adjustment of pH can be accomplished using malic acid.

Water contained in the composition may be a mixture of water and alcohol. The preferred alcohols are ethanol and isopropyl alcohol. The amount of alcohol in water is about 70 wt.% water-alcohol solution. More preferably, the amount of alcohol in water ranged from about 40 to about 60 wt.% water-alcohol solution.

Natural fats or oils used in the emulsion compositions of the type oil-in-water, can be selected from the group including: avocado oil, apricot oil, babassu oil, borrajo, Camellia oil, canola oil, castor oil, coconut oil, corn oil, cottonseed oil, evening primrose oil, gidrirovannoe cottonseed oil, gidrirovannoe palm kernel oil-derived soybean oil, obtained by using maleic anhydride, meadowfoam seed oil, palm kernel oil, phospholipids, rapeseed oil, palmitic acid, stearic acid, linoleic acid, stearyl alcohol, lauric alcohol, ministerului alcohol, beganovic alcohol, the oil of the fruits of shipowner is a, sunflower oil, soybean oil and mixtures thereof. A number of these fats or oils used in the composition may range from about 0.5 to about 10 wt.%, and more preferably from about 1 to about 5 wt.%.

The Sterol or Sterol derivatives contained in the emulsion compositions of the type oil-in-water, can be selected from the group including: cholesterol, sitosterol, stigmasterol, ergosterol, lanstein, soy Sterol, avocado sterols, esters of cholesterol esters Sterol, avocados, lanolin and mixtures thereof.

More preferably, the amount of emulsifying surfactants used in the emulsion compositions of the type oil-in-water could be from about 1 to about 15 wt.%. More preferably, the amount of water-retaining substances used in the emulsion compositions can be from about 0.5 to about 20 wt.%.

One variant of this composition includes about 1 wt.% oil borrajo, about 0.8 wt.% of soya Sterol, about 5 wt.% glycerin, about 3 wt.% glyceraldehyde SE and about 90,2 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition includes about 1 wt.% oil borrajo, about 0.8 wt.% of soya Sterol, about 5 wt.% glycerin, about 3 wt.% glicerinstearat is and SE, about 1 wt.% vaseline Pharmacopoeia of the United States, about 1 wt.% PROLIPID 141 and about 88,9 wt.% water. This emulsion composition may have a pH of approximately 5.5. (PROLIPID sold by International Specialty Products, which is located at Wayne, New Jersey. PROLIPID mainly described in U.S. patent No. 5849315 issued Rerek et al. December 15, 1998, the disclosure of which is included in the present invention to refer to the extent to which it is consistent with the present invention.)

Another version of this composition includes about 0.5 wt.% avoiding, about 0.5 wt.% esters of Sterol, about 5 wt.% glycerin, about 1 wt.% glyceraldehyde in the form of PROLIPID 141 and about 92 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition includes about 10 wt.% sunflower oil, about 1 wt.% cholesterol, about 3 wt.% glycerin, about 5 wt.% emulsifying wax NF, and about 81 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition includes about 5 wt.% avocado oil, about 1 wt.% larosterna, about 1 wt.% sorbitol, about 5 wt.% propilengikolya SE and about 88 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this song on the em about 10 wt.% palm kernel oil, about 1 wt.% larosterna, about 15 wt.% hydrogenated hydrolyzed starch, about 15 wt.% glycerylmonostearate, about 5 wt.% vaseline or mineral oil and about 54 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition includes about 10 wt.% lanolin, about 5 wt.% of soya Sterol, about 5 wt.% glycerin, about 10 wt.% emulsifying wax NF, about 5 wt.% vaseline or mineral oil and about 60 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition includes about 15 wt.% cottonseed oil, about 15 wt.% esters of Sterol, about 10 wt.% propylene glycol, about 15 wt.% propilengikolya SE, about 10 wt.% vaseline or mineral oil and about 45 wt.% water. This emulsion composition may have a pH of approximately 5.5.

Another version of this composition comprises about 30 wt.% oil of evening primrose, about 5 wt.% cholesterol, about 5 wt.% sodium PCA (PCA - Podolia acid), about 10 wt.% propilengikolya SE and about 50 wt.% water. This emulsion composition may have a pH of approximately 5.5.

The amount of natural fat or oil or a mixture of natural fats or oils contained in pulsional compositions of type oil-in-water, can be from about 0.1 to about 30 wt.%, more preferably from about 0.5 to about 10 wt.%, more preferably from about 1 to about 5 wt.%. In the present invention means that the expression "natural fats or oils" includes fats, oils, essential oils, fatty acids and mixtures thereof. In the present invention suitable natural fats or oils include, but are not limited to, the following substances classified in accordance with designations of the Association for perfume and cosmetic products and fragrances:

Fats and oils: apricot kernel oil, avocado oil, babassu oil, butter, borrajo, butter, triglycerides of acids with 12-18 carbon atoms, Camellia oil, canola oil, triglyceride Caprylic/capric/lauric acid, triglyceride Caprylic/capric/linoleic acid, carrot oil, oil from nuts to cashew, castor oil, cherry oil, sage oil, Columbia, cocoa butter, coconut oil, cod liver oil, oil from corn germ, corn oil, cottonseed oil, triglycerides with 12-18 carbon atoms, egg oil, epoxydecane soybean oil, canola oil, glycerylmonostearate, glyceryltrinitrate, glycosphingolipids, grape seed oil, hazelnut oil, lipids, human placenta, oil is safflower hybrids, the oil of the sunflower hybrids gidrirovannoe castor oil, hydrogenated castor oil laurate, gidrirovannoe coconut oil, gidrirovannoe cottonseed oil, hydrogenated triglycerides with 12-18 carbon atoms, hydrogenated fish oil, hydrogenated lard, gidrirovannoe oil Menhaden, hydrogenated mink oil, crude hydrogenated fat Atlantic loggerhead, gidrirovannoe palm kernel oil, gidrirovannoe palm oil, gidrirovannoe peanut butter, gidrirovannoe the shark liver oil, gidrirovannoe soybean oil, gidrirovannoe butter, gidrirovannoe vegetable oil, lard, triglyceride of lauric/palmitic/oleic acids, oil lesquerella, linseed oil, oil of Australian walnut, soy derived oil obtained by using maleic anhydride, seed oil Limnanthes Alba, oil Menhaden, mink oil, Moringa oil, oil mortierella, hoofed oil, a triglyceride of oleic/linoleic acid, triglyceride of oleic/palmitic/lauric/myristic/linoleic acids, oleostearin, the oil from the peel of olives, olive oil, lipids sebaceous glands, fat Atlantic loggerhead, palm kernel oil, palm oil, peach oil, peanut oil, Penghawar djambi, oil Pentadesma butyracea, phospholipids, pistachio oil, placental lipids, rapso the second oil rice oil, safflower oil, sesame oil, shark liver oil, oil from the seeds of the Shea tree, soybean oil, sphingolipids, sunflower oil, sweet almond oil, tall oil, animal oil, tribehenin, tricotrin, tricaprylin, tryptanol, trihydroxystearin, trihydroxystearin, triethanolamin, triisostearate, Treasury, trilinolein, trilinolenin, trimyristin, dioctanoyl, triolein, tripalmitin, triceraton, tristearin, Triodion, vegetable oil, walnut oil, wheat bran lipids, oil from wheat germ oil of Curcuma zedoria and the like, and mixtures thereof.

Fatty acids: orhideea acid, arachidonic acid, Bekenova acid, capric acid, Caproic acid, Caprylic acid, coconut acid oil, acid corn oil, acid cottonseed oil, gidrirovanny acid cottonseed oil, gidrirovanny acid oil Menhaden, gidrirovanny acid animal fat, hydroxystearate acid, ezoterikova acid, lauric acid, linoleic acid, linolenic acid, the acid of linseed oil, myristic acid, oleic acid, palmitic acid, palm kernel acid oil, pelargonia acid, ricinoleic acid, acid soybean oil, stearic acid, acid tall oil, animal fat acid that round is anew acid, undecylenoyl acid, acid oils from wheat germ, etc. and mixtures thereof.

Fatty alcohols: beganovic alcohol, alcohols with 9-11 carbon atoms, alcohols, 12-13 carbon atoms, alcohols with 12-5 carbon atoms, alcohols with 12 to 16 carbon atoms, alcohols of 14-15 carbon atoms, Caprylic alcohol, Cetearyl alcohol, cetyl alcohol, alcohol, coconut oil, decroly alcohol, alcohol, hydrogenated animal fat, lauric alcohol, ministerului alcohol, alerby alcohol, alcohol, palm oil, alcohol, palm kernel oil, stearyl alcohol, alcohol, animal fat, tridecylamine alcohol, etc. and mixtures thereof.

Essential oils: anise oil, Melissa oil, Basil oil, oil of monarda, bergamot oil, birch oil, bitter almond, calenduleae oil, California nutmeg, caraway oil, cardamom oil, chamomile oil, cinnamon oil, Clary sage oil, the oil from the leaves of the clove tree, clove oil, coriander oil, cypress oil, eucalyptus oil, fenceline oil, gardenieae oil, geranium oil, ginger oil, grapefruit oil, hop oil, hyptis colonoscope oil, Indigo Bush, Jasmine oil, juniper oil, oil kiwi, Laurel oil, lavender oil, lemongrass oil, lemon oil, lime oil, lubesta the TV oil, tangerine oil, chamomile oil, oil of musk rose, nutmeg oil, oil olibanum, oil of orange flower, orange oil, pachulia oil, marsh mint, peppermint oil, rosehip oil, rosemary oil, rose oil, Rue oil, sage oil, elderberry, sandalwood oil, sassafras oil, fir oil, curly mint, oil of oregano, oil of fragrant violets, tea tree oil, thyme oil, wild mint oil, yarrow oil, ylang-ilang oil, etc. and mixtures thereof.

Preferred natural fats and oils include, but are not limited to): avocado oil, apricot oil, babassu oil, borrajo, Camellia oil, canola oil, castor oil, coconut oil, corn oil, cottonseed oil, evening primrose oil, gidrirovannoe cottonseed oil, gidrirovannoe palm kernel oil-derived soybean oil, obtained by using maleic anhydride, seed oil Limnanthes Alba, palm kernel oil, phospholipids, rapeseed oil, palmitic acid, stearic acid, linoleic acid, stearyl alcohol, lauric alcohol, ministerului alcohol, beganovic alcohol, oil rosehip oil, sunflower oil, soybean oil and mixtures thereof.

The amount of Sterol derivative of a Sterol or a mixture of sterols or produced in the water of sterols in the emulsion compositions of the type oil-in-water can be from about 0.1 to about 10 wt.%, more preferably from about 0.5 to about 5 wt.%, and even more preferably from about 0.8 to about 3 wt.%. When used in the present invention are suitable sterols and derivatives of sterols include, but are not limited to, the following materials: β-sterols containing a long substituent in position 17 and do not contain polar groups, such as cholesterol, sitosterol, stigmasterol and ergosterol, as well as esters of cholesterol/larosterna from 10-30 carbon atoms, cholecalciferol, cholesterolcholesterol, cholesterylester, cholesterylester, 7-dehydrocholesterol, dihydrocholesterol, dihydroheterocodeine, DigitalMaster, digitalentertainment, ergocalciferol, tall oil Sterol, Sterol acetate, soy lanstein, soy Sterol, avocado sterols, esters of cholesterol esters Sterol, avocados, lanolin and the like, and mixtures thereof.

The amount of emulsifying surfactant having products HLB value in the range from about 7 to about 18 contained in the emulsion compositions of the type oil-in-water, can be from about 0.5 to about 20 wt.%, more preferably from about 1 to about 15 wt.%, and even more preferably from about 3 to about 10 wt.%. Emulsifying the surface of the but-active substances are usually used in cosmetic compositions for the formation of emulsions of different components. Immiscible phase, such as oil, in the form of droplets dispersed in a continuous phase, such as water. When used in the present invention are suitable surfactants include, but are not limited to, the following: esters of almond oil and PEG-6, PEG - polyethylene glycol), esters of apricot kernel oil and PEG-6, esters of avocado oil and PEG-6, beenet-5, beenet-10, beenet-20, glycol ester of the acid with 18-36 carbon atoms, complex, PEG-8 and acid 18-36 carbon atoms, stearylamine calcium, glycerides canola oil, esters PEG-4 and triglyceride Caprylic/capric acids, beenet-5, beenet-10, beenet-20, Clearinghouse, ceteth-1, ceteth-2, ceteth-3, ceteth-4, ceteth-5, ceteth-6, ceteth-10, ceteth-112 ceteth-15, ceteth-16, cetilistat, Cholet-10, Cholet-20, cocet-3, coat-5, coat-8, cocet-10, corn oil glycerides, esters of PEG-6 corn oil, esters PEG-8 and corn oil, cottonseed oil glycerides, pareth-3 with 9-11 carbon atoms, pareth-6 with 9-11 carbon atoms, pareth-8 with 9-11 carbon atoms, pareth-3 with 11 to 15 carbon atoms, pareth-5 with 11 to 15 carbon atoms, pareth-7 11-15 carbon atoms, pareth-9 with 11 to 15 carbon atoms, pareth-12 with 11 to 15 carbon atoms, pareth-15 with 11 to 15 carbon atoms, pareth-20 with 11 to 15 carbon atoms, pareth-3 11-21 carbon atoms, pareth-10 11-otomani carbon pareth-3 12-13 carbon atoms, pareth-3 12-13 carbon atoms, pareth-7, 12-13 carbon atoms, pareth-9, 12-13 carbon atoms, pareth-15 12-13 carbon atoms, pareth-2 12-15 carbon atoms, pareth-3 12-13 carbon atoms, pareth-3 12-13 carbon atoms, pareth-5 12-13 carbon atoms, pareth-7, 12-13 carbon atoms, pareth-9, 12-13 carbon atoms, pareth-11 12-13 carbon atoms, pareth-12 12-13 carbon atoms, pareth-7 of 14-15 carbon atoms, pareth-11 of 14-15 carbon atoms, pareth-13 14-15 carbon atoms, pareth-3 with 20-40 carbon atoms, pareth-10 from 20 to 40 carbon atoms, pareth-3 with 30-50 carbon atoms, pareth-10 30-50 carbon atoms, pareth-3 with 40-60 carbon atoms, pareth-10 from 40 to 60 carbon atoms, pareth-2-phosphate with 12-15 carbon atoms, deja-cetilistat (deja - diethanolamine), deja-IG-3 phosphate deja-IG-10-phosphate, decet-4, decet-6, decet-4-phosphate, decet-6-phosphate, doctrinalist, dietary-10-phosphate, diethylphosphate, diethylaminoethylamine, diethylaminoethyl-PEG-5-cocoat, diethylaminoethyl-PEG-5-laurate, diethylaminoethylamine, deglycerized, dehydrocholic-15, dehydrocholic-20, dehydrocholic-30, delaure-4-phosphate, delaure-10-phosphate, methyl ester dimethiconol, dimethyloctyl, dimenoxadol-9-citrate, dimenoxadol-4-phosphate, dialed-8-phosphate, disodium-laurifolia, disodium-PEG 8-glycerolipid/capret, dodecenal-5, dodecenal-6, dodecenal-7, godocs the Nol-9, digoxina-12, emulsifying wax NF, glycereth-20 stearate, glycerinated, glycerolipid, glycerolipid, glycerolipid/capret, literallayout, glycerinated, hydrogenated glycerinated, glycerylmonostearate, glycerylmonostearate, literallayout, literallayout, literallayout/oleate, literallayout SE, literallayout, literallayout, glycerylmonostearate, literalistic, glyceridae, glycerinated SE, glyceryltrinitrate/stearate, glyceryltrinitrate, glycerinated, glyceryl/sorbifolia/hydroxystearate, literallayout, literallayout SE, glycol stearate SE, hydrogenated cottonseed oil glycerides, hydrogenated lanet-5, hydrogenated lanet-20, hydrogenated glycerides of lard, hydrogenated lecithin, hydrogenated palm oil glycerides, hydrogenated esters of palm/palm kernel oil and PEG-6, hydrogenated soybean oil glycerides, hydrogenated glycerides of animal fat, hydrogenated glycerides of vegetable oil, phosphates of hydrogenated glycerides of vegetable oils, hydroxytyrosol, gidroksilirovanii lecithin, secetary-8-stearate, isoceteth-10, isoceteth-20, isoceteth-10-stearate, isoceteth-4, isoceteth-5, isoceteth 6 isolaureth-3, isolaureth 5 isolaureth-10, isostearic-2, isostearic-3, isostearic-10, isostearic-12, isostearic-20, isostearic-6-carboxylic acid, sost is are-11-carboxylic acid, isostearate-10-stearate, lanet-5, lanet-10, lanet-15, lanet-16, lanet-4-phosphate, lanolin, Laureth-1, Laureth-2, Laureth-3, Laureth-4, Laureth-5, Laureth-6, Laureth-7, Laureth-8, Laureth-9, Laureth-10, Laureth-11, Laureth-12, Laureth-13, Laureth-14, Laureth-15, Laureth-16, Laureth-3-carboxylic acid laurifolia, lecithin, monitorlayout, mericarol 105, mericarol 108, mericarol 174, mericarol 251, mericarol 252, mericarol 311, mericarol 312, esters mink oil and PEG-13, Miret-3, Miret-4, Miret-5, Miret-10, nonet-8, nonoxynol-1, nonoxynol-2, nonoxynol-3, nonoxynol-4, nonoxynol-5, nonoxynol-6, nonoxynol-7, nonoxynol-8, nonoxynol 9, nonoxynol-10, nonoxynol-11, nonoxynol-12, nonoxynol-13, nonoxynol-14, nonoxynol-15, nonoxynol-18, nonoxynol-20, nonoxynol-6-phosphate, nonoxynol-9-phosphate, nonoxynol-10-phosphate, noninnocent-5, noninnocent-10, noninnocent-7-phosphate, noninnocent-9-phosphate, noninnocent-10-phosphate, octoxyglycerin, octoxyglycerin, octoxynol-1, octoxynol-3, octoxynol-5, octoxynol-7, octoxynol-8, octoxynol-9, octoxynol-10, octoxynol-11, octoxynol-12, octoxynol-13, octoxynol-16, octoxynol-20, octoxynol-9-carboxylic acid, octyldodecyl-20, IG-2, IG-3, IG-4, IG-5, IG-6, IG-7 and IG-8, IG-9, IG-10, IG-12, IG-15, IG-16, IG-20, IG-2-phosphate, IG-3-phosphate, IG-4-phosphate, IG-10-phosphate, IG-20 phosphate esters olive mA the La and the PEG-6, esters olive oil PEG-10, palm oil glycerides, esters of peanut oil and PEG-6, glycerides PEG-20 almond oil, glycerides PEG-60 almond oil, glycerides PEG-11 avocado oil, PEG-6 beeswax, PEG-8 beeswax, PEG-8-beginat, PEG-8-capret, PEG-8-kaprilat, PEG-8-kaprilat/capret, glycerides PEG-6 Caprylic/capric acids, glycerides PEG-8 and Caprylic/capric acids, PEG-2 castor oil, PEG-3 castor oil, PEG-4 castor oil, PEG-5 castor oil, PEG-8 castor oil, PEG-9 castor oil, PEG-10 castor oil, PEG-11 castor oil, PEG-15 castor oil, PEG-20 castor oil, PEG-25 castor oil, PEG-30 castor oil, PEG-33 castor oil, PEG-35 with castor oil, PEG-36 castor oil, esters of PEG-8 with 12 to 18 carbon atoms, PEG-3-cocamide, PEG-5-cocamide, PEG-6-cocamide, PEG-7-cocamide, PEG-11-cocamide, PEG-3-kokumin, PEG-3-kokumin, PEG-5-kokumin, PEG-10-kokumin, PEG-15-kokumin, PEG-20-kokumin, PEG-15-catamenial/phosphate, glycerides PEG-75 and cocoa butter, PEG-5-Cocoate, PEG-5-Cocoate, PEG-8-Cocoate, PEG-15-cocoat, esters PEG-10 and coconut oil, PEG-15-katapoliani, glycerides PEG-20 corn oil, glycerides PEG-60 corn oil, PEG-8-decomat, PEG-2-disonant, PEG-8-diisostearate, PEG-2-dilaurate, PE is-4-dilaurate, PEG-6-dilaurate, PEG-8-dilaurate, PEG-12-dilaurate, PEG-20-dilaurate, PEG-32-dilaurate, PEG-2-dioctanoyl, PEG-4-dioleate, PEG-6-dioleate, PEG-8-dioleate, PEG-10-dioleate, PEG-12-dioleate, PEG-20-dioleate, PEG-32-dioleate, PEG-3-dipalmitate, PEG-13-diphenylolpropane, PEG-2-distearate, PEG-3-distearate, PEG-4-distearate, PEG-6-distearate, PEG-8-distearate, PEG-9-distearate, PEG-12-distearate, PEG-20-distearate, PEG-32-distearate, PEG-8-detalla, PEG-12-detalla, PEG-8 di/triricinolein, glycerides PEG-60 and evening primrose oil, PEG-7-literallayout, PEG-12-glyceridae, PEG-127-glycerylmonostearate, PEG-12-literallayout, PEG-15-glycerylmonostearate, PEG-10-picarella, PEG-15-picarella, PEG-20-picarella, PEG-15-glyceryltrinitrate, PEG-20-glyceryltrinitrate, PEG-5-glitserillinoleat, PEG-5-literallayout, PEG-10-literallayout, PEG-5-glycerylmonostearate, PEG-25-glyceryltrinitrate, PEG-5 gidrirovanny castor oil, PEG-16 gidrirovanny castor oil, PEG-5 gidrirovanny castor oil, PEG-20 gidrirovanny castor oil, PEG-25 castor gidrirovanny oil, PEG-30 with gidrirovanny castor oil, PEG-35 with gidrirovanny castor oil, PEG-40 with gidrirovanny castor oil, PEG-5 glycerides hydrogenated corn oil, PEG-8 glycerides fish oil, PEG-5 gidrirovanny lanolin, PEG-10 gidrirovanny lanolin, PEG-20 hydri ofanim lanolin, PEG-24 gidrirovanny lanolin, PEG-5 glycerides hydrogenated palm oil, PEG-13 with Amida hydrogenated animal fat, PEG-15 amidon hydrogenated animal fat, PEG-20 amidon hydrogenated animal fat, PEG-15-hydroxystearate, PEG-6-italiany tiefer, PEG-8-italiany tiefer, PEG-10-italiany tiefer, PEG-6-isopleth, PEG-4-isostearate, PEG-6-isostearate, PEG-8-isostearate, PEG-10-isostearate, PEG-12-isostearate, PEG-15 acid jojoba, PEG-26 with acid, jojoba oil, PEG-40 acid jojoba, PEG-15 with alcohol jojoba, PEG-26 with alcohol jojoba, PEG-5-lanolate, PEG-10-lanolin, PEG-20-lanolate, PEG-5 lanolin, PEG-10 lanolin, PEG-20 lanolin, PEG-24 lanolin, PEG-27 lanolin, PEG-30 lanolin, PEG-40 lanolin, PEG-75 lanolin wax, PEG-3-lauramide, PEG-5-lauramide, PEG-6-lauramide, PEG-2 laurate, PEG-4 laurate, PEG-6-laurate, PEG-8 laurate, PEG-9 laurate, PEG-10 laurate, PEG-12 laurate, PEG-14-laurate, PEG-2 laurate SE, PEG-6-laurate/tartrate, PEG-8-linoleate, PEG-8-linolenate, PEG-20-distearate methylglucose, PEG-20-sesquiquadrate/sesquiquadrate methylglucose, PEG-20-Sesquieres methylglucose, PEG-20-sesquistearate methylglucose, PEG-13 with mink oil glycerides, PEG-8-myristate, PEG-20-myristate, PEG-4-octenoate, PEG-5-octenoate, PEG-13-octanoate, PEG-2-oleamide, PEG-4 oleamide, PEG-5-oleamide, PEG-6 oleamide, PEG-7-Ola, the Ministry of foreign Affairs, PEG-9 oleamide, PEG-2-alamin, PEG-5-alamin, PEG-15-alamin, PEG-2 oleate, PEG-3-oleate, PEG-4-oleate, PEG-5-oleate, PEG-6 oleate, PEG-7-oleate, PEG-8 oleate, PEG-9 oleate, PEG-10 oleate, PEG-11-oleate, PEG-12 oleate, PEG-14-oleate, PEG-15-the oleate, PEG-20 oleate, PEG-2 oleate SE, PEG-10 olive oil glycerides, PEG-6-palmitate, PEG-18-palmitate, PEG-20-palmitate, PEG-12 glycerides of palm kernel oil, PEG-45 palm kernel glycerides oil, PEG-25-phytosterol, PEG-10-polyglyceryl-2-laurate, PEG-3/GPR-2-glycerol/corbythejoker/isostearate (BCP - polypropylenglycol), PEG-20/GPR-10-literallayout, PEG-4-polylinear, PEG-8-polylinear, PEG-4-amide rapeseed oil, PEG-2-ricinoleate, PEG-7-ricinoleate, PEG-8-ricinoleate, PEG-9-ricinoleate, PEG-8-Sesquieres, PEG-8-sesquioleate, PEG-6 sorbitan with beeswax, PEG-8 sorbitan with beeswax, PEG-20-sorbitan with beeswax, PEG-40-serbianisation, PEG-5-serbianization, PEG-20-serbianization, PEG-3-sorbifolia, PEG-6-sorbifolia, PEG-40-orbitalperiod, PEG-3-servicestart, PEG-6-servicestart, PEG-30-sorbitanoleat, PEG-40-sorbitanoleat, PEG-60-sorbitanoleat, PEG-60-servicentercheese, PEG-40-servicescreate, PEG-50-servicescreate,

PEG-30-arbitrational, PEG-5 with an amine of soybean oil, PEG-8 with the amine soybean oil, PEG-10 with an amine of soybean oil, PEG-15 with amino is soybean oil, PEG-5 with Sterol soybean oil, PEG-10 with Sterol soybean oil, PEG-16 with Sterol soybean oil, PEG-25 with Sterol soybean oil, PEG-4-stearate, PEG-5-stearman, PEG-10-stearman, PEG-15-stearman, PEG-2 stearate, PEG-3-stearate, PEG-4 stearate, PEG-5-stearate, PEG-6 stearate, PEG-7-stearate, PEG-8 stearate, PEG-9-stearate, PEG-10 stearate, PEG-12 stearate, PEG-14-stearate, PEG-18-stearate, PEG-20 stearate, PEG-2 stearate SE, PEG-4-Tallat, PEG-5-Tallat, PEG-8-tallet, PEG-10-Tallat, PEG-12-Tallat, PEG-16-Tallat, PEG-20-Tallat, PEG-5 amidon animal oil, PEG-8 amidon animal fat, PEG-20-callout, PEG-5-tricaprylate, PEG-5-triethylcitrate, PEG-5-tredecillion, PEG-5-trilaurylamine, PEG-5-timerestricted, PEG-5-tristearate, PEG-6-undecenal, pelargonia acid, poloxamer 101, poloxamer 105, poloxamer 122, poloxamer 123, poloxamer 124, poloxamer 181, poloxamer 185, poloxamer 212, poloxamer 215, poloxamer 231, poloxamer 282, poloxamer 284, poloxamer 331, poloxamer 333, poloxamer 401, poloxamer 402, 403 poloxamer poloxamer 407, poloxamer 304, poloxamine 304, poloxamine 504, poloxamine 701, poloxamine 702, poloxamine 704, poloxamine 707, poloxamine 901, poloxamine 904, poloxamine 1101, poloxamine 1102, poloxamine 1104, poloxamine 1301, poloxamine 1302, poloxamine 1304, poloxamine 1307, poloxamine 1501, poloxamine 1502, poloxamine 1504, polyglyceryl-3 with beeswax, polyglyceryl-3-zetalo the initial ether, polyglyceryl-4-cocoat, polyglyceryl-10-declinata, polyglyceryl-10-decollet, polyglyceryl-10-datastart, polyglyceryl-3-decyltetradeceth, polyglyceryl-2-diisostearate, polyglyceryl-3-diisostearate, polyglyceryl-10-diisostearate, polyglyceryl-2-diolein, polyglyceryl-3-dioleate, polyglyceryl-6-dioleate, polyglyceryl-10-dioleate, polyglyceryl-3-distearate, polyglyceryl-6-distearate, polyglyceryl-10-distearate, polyglyceryl-10-leptalea, polyglyceryl-10-heptasaurid, polyglyceryl-6-Exalead, polyglyceryl-3-gidrometeorology ether, polyglyceryl-2-isostearate, polyglyceryl-4-isostearate, polyglyceryl-6-isostearate, polyglyceryl-2-ether of lanolin alcohol, polyglyceryl-10 laurate, polyglyceryl-4-lauric ether, polyglyceryl-10-myristate, polyglyceryl-2-oleate, polyglyceryl-3-oleate, polyglyceryl-4-oleate, polyglyceryl-6-oleate, polyglyceryl-8-oleate, polyglyceryl-10 oleate, polyglyceryl-2-alerby ether, polyglyceryl-4-alerby ether, polyglyceryl-4-PEG-2-kokame, polyglyceryl-2-PEG-4 stearate, polyglyceryl-6-pentolate, polyglyceryl-10-pentolate, polyglyceryl-6-pentastarch, polyglyceryl-10-pentastarch, polyglyceryl-2-sesquiisostearate, polyglyceryl-2-sesquioleate, polyglyceryl-2-stearate, polyglyceryl-3-stearate, polyglyceryl-4-stearate, polyglyceryl-8-stearate, polyglyceryl-10-stearate, polyglyceryl-3-stearate SE, polyglyceryl-2-Tetris the stearate, polyglyceryl-10-tetrault, polyglyceryl-2-tetrastearate, polyglyceryl-2-triisostearate, polyglyceryl-10-trioleate, polyglyceryl-3-tristearate, Polysorbate 20, Polysorbate 21, Polysorbate 40, Polysorbate 60, Polysorbate 61, Polysorbate 65, Polysorbate 80, Polysorbate 81, Polysorbate 85, Polysorbate 80 acetate, castoral potassium, cetilistat potassium, cocoat potassium, Kornat, potassium laurate, potassium myristate potassium, octoxynol-20-potassium phosphate, potassium oleate, potassium palmitate, ricinoleic potassium, potassium stearate, potassium Tallat callout potassium, GPR-7-may be-10, GPR-9-may be-12, GPR-12-it may be-16, GPR-15-it may be-20, GPR-20-may be-30, GPR-24-it may be-27, GPR-7-may be-10, GPR-26-may be-26, GPR-28-it may be-35, GPR-25-phosphate butyl ether, GPR-2-ceteareth-9, GPR-4-ceteareth-12, BCP-10-ceteareth-20, GPR-4-ceteth-1, GPR-4-ceteth-5, GPR-4-ceteth-10, GPR-4-ceteth-20, GPR-5-ceteth-20, GPR-8-ceteth-1, GPR-8-ceteth-2, BCPs-8-ceteth-5, GPR-8-ceteth-10, GPR-8-ceteth-20, GPR-5-ceteth-10-phosphate, BCP-10-cetyl phosphate ester, GPR-6-pareth-11 with 12-18 carbon atoms, GPR-2-decat-4, GPR-4-decat-4, GPR-6-decat-4, GPR-6-decat-9, GPR-8-decat-6, GPR-6-decyltetradeceth-12, GPR-6-decyltetradeceth-20, GPR-6-decyltetradeceth-30, GPR-20-decyltetradeceth-10, GPR-24-glycereth-24, BCPs 66-glycereth-12, GPR-10-gliterry ether, GPR-27-gliterry ether, GPR-55-gliterry ether, GPR-2-isoceteth-20-acetate, GPR-2-isodate-4, GPR-2-isodate-6, GPR-2-isodate-9, GPR-2-isodate-12, BCPs-C-isostearate-9, GPR-4 with acid, jojoba oil, GPR-4 SP the mouth of jojoba oil, BCP-10 with alcohol jojoba, GPR-12-lanet-50, BCP-3-Laureth-9, GPR-4-Laureth-2, GPR-4-Laureth-5, GPR-4-Laureth-7, GPR-5-Laureth-5, GPR-25-Laureth-25, GPR-7-lauric ether, the BCP-3-Miret-3, BCP-3-Miret-11, GPR-2-PEG-6 esters of coconut oil, BCPs-12-PEG-50 lanolin, GPR-12-PEG-65 lanolin oil, GPR-40-PEG-60 lanolin oil, GPR-8-polyglyceryl-2-ether, propylene glycol-capret 4 propilenglikolstearat, propilenglikolmonostearata, propylene glycol-isodate-4, propylene glycol-isodate-12, propilenglikolstearat, propilenglikolstearat, propilenglikolstearat, propilenglikolstearat, propilenglikolstearat, propilengikolya, propilengikolya SE, propylene glycol-IG-5, propilenglikolstearat, propilenglikolstearat, propilenglikolstearat, propilenglikolstearat SE, oleate raffinose, glycerides oil safflower, caprolactam sodium, kaprilat sodium, capelet-9-carboxylate sodium, castoral sodium, ceteth-13-carboxylate sodium, acesulfam sodium, Cocoate sodium, sodium derived Coco/sulfate hydrogenated animal fat, dietary-10-phosphate, isostearate sodium laurate, sodium, Laureth-4 phosphate, laurolactam sodium, sodium/IEA-Laureth-2-sulfosuccinate (IEA - monoethanolamine), myristate sodium, sodium oleate, aeollanthus sodium, IG-7-phosphate sodium, IG-8-phosphate, p limited sodium, palmkernel sodium, ricinoleic sodium, sodium stearate, street-4-phosphate sodium, stearylamine sodium, SteadyShot sodium, trilateralist sodium, tradecraft sodium, undecent sodium, sorbet-6-exactearth, serbianisation, servicedirect, sorbitanoleat, serbianization, corbicular, sorbifolia, sorbitanoleat, servicesarchitecture, servicesecurity, servicessector, servicestart, corbettreport, sarbatorile, arbitrational, acid soybean oil, steareth 2 steareth-3, steareth 4 steareth 5 steareth 6 steareth 7 steareth-10, steareth-11 steareth-13, steareth-15, steareth-16, steareth-20, steareth-21, stearic acid, steroidology acid, cocoat sucrose, kilowatt sucrose, distearate sucrose, sucrose laurate, myristate sucrose, sucrose oleate, sucrose palmitate, pollaert sucrose, polylinear sucrose, presteert sucrose, ricinoleic sucrose, sucrose stearate, glycerides sunflower oil, acid tall oil, acid oil tree Galve, tallowy-b, glycerides of animal fat, Thea-isostearate (TEA-triethanolamine), Thea-laurolactam, Thea-myristate, Tea-oleate, tea-palmitate, tea-stearate, tea-Tallat, TIPA-stearate, treatheart-4-phosphate, triatec-5-phosphate, Trideceth-2, Trideceth-3, Trideceth-6, Trideceth-7, Trideceth-9, Trideceth-10, Trideceth-11, ridetech-12, Trideceth-15, Trideceth-20, Trideceth-3-phosphate, Trideceth-6-phosphate, esters of triisostearate-PEG-6, Telnet-4-phosphate, trilaureth-4-phosphate, esters of triolein-PEG-6 triolein-8-phosphate, undecanoate acid, undeceth-5, undecylenic-6, phosphate, vegetable glycerides, etc. and mixtures thereof.

Preferred surfactants include, but are not limited to): emulsifying wax NF, literallayout, literallayout SE, glycolethers, glycolethers SE, glycereth-20 stearate, glycerinated, glycerylmonostearate, literallayout SE, glyceridae, glycerinated SE, propilengikolya, propilengikolya SE, propilenglikolstearat, propilenglikolstearat SE, servicestart, sarbatorile, etc. and mixtures thereof.

The amount of water-retaining substance in the emulsion compositions of the type oil-in-water can be from about 0.1 to about 30 wt.%, more preferably from about 0.5 to about 20 wt.%, and even more preferably from about 1 to about 10 wt.%. Hydrophilic substances are usually cosmetic ingredients used to increase the water content in the upper layers of the skin. This group of materials consists primarily of a hygroscopic components. In the present invention, suitable water-retaining substances include, but are not exhaust uniqueuse only by them), the following materials: ndimethylacetamide IEA, Aloe Vera gel, arginine PCA, chitosan PCA, copper PCA, corn oil glycerides, dimethylimidazolidine, fructose, glutamine, glucose, glutamate glucose, glucuronic acid, glutamic acid, glycereth 7 glycereth-12, glycereth-20, glycereth-26, glycerin, honey, hydrogenated honey, hydrogenated, hydrolyzed starch, hydrogenated corn starch, lactamide IEA, lactic acid, lactose lysine PCA, mannitol, methylglycol-10, methylglycol-20, PCA PEG-2-lactamide, PEG-10-propylene glycol, a condensate polyamidoamine sugar, potassium PCA, propylene glycol, citrate, propylene glycol, hydrolyzed saccharide, isomerate of sugar, sodium aspartate, sodium lactate, sodium PCA, sorbitol, tea-lactate, tea-PCA, urea, xylene, etc., and mixtures thereof.

The amount of water in the emulsion compositions of the type oil-in-water, can range from approximately 45 to approximately 99.5 wt.%, more preferably from about 60 to about 98 wt.%, and even more preferably from about 75 to about 95 wt.%.

Quantity of vaseline or mineral oil, which optionally can be used in the emulsion compositions of the type oil-in-water, can be from about 0 to about 30 wt.%, more preferably from about 0 to about 10 wt.%, and even more preferably from about 0 to about 5 wt.%.

Using appropriate is iSlate or bases the pH should be installed so that so it approached the pH of the skin. The pH of the composition may range from about 4.0 to about 7.0 and more preferably from about 5.0 to about to 6.0, and more preferably from about of 5.4 to about 5.6. For some types of products, such as certain cosmetic wipes, it may be desirable pH value in the range from about 2 to about 8.

To further increase the useful features provided to consumers, you can use additional components. Component classes and the corresponding useful features include (but are not limited to): means having protivougrevoe activity (drug, used to reduce the number of acne blemishes, acne pimples, black and whiteheads); protivovspenivayushchie funds (reduce the tendency of foaming during processing); means having antimicrobial activity; means having antifungal activity; funds with antiseptic activity; antioxidant (protects the integrity of the product); antioxidants (to prevent oxidation of natural oils and other components of the composition); astringent components - cosmetic (induce skin tightening or tingling sensation); astringents - drug what s drugs (drugs, which when applied to the skin and mucous membranes stop the infiltration, the formation of secretions and bleeding, causing clotting protein); biological additives (enhance the characteristics of the product or its attractiveness to consumers; this includes vitamins); dyes (dye product); deodorants (reduce or remove unpleasant odor and prevents the unpleasant smell on body surfaces); softeners (help maintain soft, smooth and elastic skin, because they are able to remain on the skin surface or in the stratum corneum to act as lubricants, reducing exfoliation and improving the appearance of skin); film formers (designed to hold active ingredients on the skin due to the fact that after drying they form on the skin of a continuous film); fragrances (provide attractiveness to consumers); natural moisturizing agents (NCA) and other means of hydration of the skin, known in the art; preservatives (prevent microbial contamination and growth of microorganisms); means for conditioning the skin; means for peeling (components, which increase the rate of cell renewal of the skin, such as alpha hydroxy acids and beta hydroxyacids); skin protection (medicinal PR is parathas, which protect the injured or exposed skin or mucous membrane from harmful or unpleasant effects); solvents (liquids used to dissolve the components used in cosmetics and medicines); sunscreen (substances that absorb at least 85% of ultraviolet radiation in the wavelength range from 290 to 320 nm, but allow the ultraviolet radiation with wavelengths above 320 nm); surfactants (used as cleansing agents, solubilizing reagents, suspendida agents and wetting agents).

Wipes corresponding to the present invention include a single layer or a layered substrate, which contains a liquid. The liquid is usually any solution that can be absorbed into the moistened substrate napkins and includes any suitable components that provide the necessary characteristics for wiping. Usually these components include water, softeners, surfactants, fragrances, preservatives, chelating components, buffer components, regulating the pH value, or mixtures thereof, are well known to specialists in this field of technology. The liquid also contains some lotions and/or medicinal preparation is you. Emulsion composition corresponding to the present invention, prepared in a special way so as to have a superior effect on the skin condition, for example, to improve barrier function and skin protection.

The number corresponding to the present invention the emulsion compositions of the type oil-in-water contained in each OBLASTNOI the cloth can vary depending on the type of material used for the manufacture of napkins or product type wipes, type of container used to store uverennyh napkins, and destination OBLASTNOI napkins. To improve the wiping each napkin or product type wipes can typically contain from about 100 to about 600 wt.%, and preferably from about 250 to about 450 wt.% liquid per mass of dry cloth. In a specific embodiment, the amount of liquid contained in the moist napkin is from about 300 to about 400 wt.%, and preferably about 330 wt.% per mass of dry cloth. If the amount of liquid is less than the above ranges, the wet wipe may be too dry and you are using does not have the necessary characteristics. If the amount of fluid more than the above ranges, the wet wipe may be saturated with liquid and m is cut and the liquid can flow down to the bottom of the container.

Each moist cloth usually has a rectangular shape and in unfolded condition may have any desired width and length. For example, in the unfolded state uverenna napkin may have a length of from about 2.0 to about 80,0 cm, and preferably from about 10.0 to about 25,0 cm, and a width equal to from about 2.0 to about 80,0 cm, and preferably from about 10.0 to about 25,0 Usually see each individual uverenna napkin is folded and stacked on top of each other so as to form a stack uverennyh napkins. Such folded configuration well known to experts in the art and include folded in half, folded accordion and folded in four configurations, etc. To get packing wet wipes intended for sale to consumers, the stack of folded wet wipes can be placed inside a container such as a plastic tube. Alternative uverennye wipes can be a continuous strip of material, in which between each napkin has a perforation, and which to use can be stacked in a stack or wound on the platen.

However, moist cloth and product type wipes may have a different shape, including but not limited to, mainly round the shaft, square or asymmetrical shape. The size of the wipes and product type wipes will also vary depending on the purpose of the napkin.

The substrate materials, single or multilayer, wipes or product type wipes corresponding to the present invention may vary in accordance with the necessity of giving a different physical characteristics. Various physical characteristics, to give them in the manufacture of the layer can be selected appropriate materials include softness, elasticity, strength, flexibility, integrity, hardness, absorption capacity, the ability to retain fluid, thickness, abrasion resistance, surface texture, appearance, texture, wettability, absorption, etc. and combinations thereof. The cloth can be made in such a way as to give all the necessary physical characteristics using a single layer, or to make thus, to give only some specific physical characteristics of each layer of the multilayer cloth. For example, the wipes may include a single layer of material, which is manufactured in such a way as to give a damp cloth strength and elasticity, and at least one other layer, which is made so wet cloth on which was ladla soft wiping surface. Preferably, moist cloth had a soft wiping surface in contact with the skin.

The layer or layers of moistened wipes or product type wipes can be made from various materials, including materials obtained aerodynamic method from the melt, together molded materials, materials aerodynamic method of production, non-woven fabrics obtained from carding, hydraulically bound materials, nonwovens spunbond production method and the like, and these may include synthetic or natural fibers. Examples of natural fibers suitable for use in accordance with the present invention include cellulosic fibers, such as fibers of wood pulp, cotton fibers, flax fibers, jute fibers, silk fibers, etc. are Examples of fibers from thermoplastic polymers suitable for use in accordance with the present invention include polyolefin fibers such as polypropylene, polyethylene, polyamide, and polyester, such as polyethylene terephthalate fibers. Alternative synthetic fibers that may be suitable include staple fibers of nylon and artificial silk. The layer or layers of moistened wipes or products type of fats is ETCI can be made of woven and nonwoven materials. In addition, these materials can be molded into balls, such as cotton balls, or attach to devices designed for the application, such as applicators swabs.

If the substrate layer is a combination of polymer and natural fibers, such as polypropylene and cellulose fibers, the relative content of polymer fibers and natural fibers in this layer may vary within wide limits depending on the desired characteristics of moist wipes. In particular, the layer may contain from about 20 to about 95 wt.%, preferably from about 20 to about 60 wt.%, and more preferably from about 30 to about 40 wt.% polymer fibers based on the dry weight of the layer. Such a layer consisting of a polymer and natural fibers, can be produced by any method known to specialists in this field of technology.

To ensure a more uniform distribution of polymer and natural fibers in the layer, it is generally preferable that this layer was obtained through a process of joint formation. These together formed layers are usually obtained as described in U.S. patent No. 4100324, issued to Anderson et al. July 11, 1978, in U.S. patent No. 4604313 issued by McFarland et al. on August 5, 1986, and in U.S. patent No. 5350624, issued September 27, 1994, the disclosure of which is included in the us is Aasee the invention to refer to the extent in which they are consistent with the present invention.

Typically, these together are molded layer are made by pneumaturia matrix of thermoplastic polymer microfibers obtained aerodynamic method from the melt, such as, for example, polypropylene fibers, and cellulose fibers, such as fibers of wood pulp. Together molded layer is produced by initial formation of at least one primary air stream containing synthetic or polymeric fibers, with the subsequent merging of the primary stream with the at least one secondary flow natural or cellulose fibers. The primary and secondary streams unite in a turbulent condition and receive the combined stream, characterized by a very uniform distribution of different fibers. The combined stream of air directed to the forming surface, on which the air layer is formed of material. To obtain a material consisting of a set of jointly formed layers, you can successfully create a lot of these together formed layers.

Different fibers in different layers of the layered substrate corresponding to the present invention, such as described above polypropylene and polyethylene fibers, usually m is may not be compatible with each other and may not be able to communicate with each other. However, these different fiber can bind with each other that will lead to good bonding layers. For example, in a layered substrate, containing together formed a layer of plastic and cellulose fibers together and formed a layer of polypropylene and cellulose fibers, polyethylene and polypropylene fiber can bind with each other and with pulp fibers and can at least partially be associated with cellulose fibers, which will lead to binding of the layers.

This interlayer linking and entanglement can be enhanced by using thermo-mechanical process in which the layered substrate is passed between the heated support roller and a heated roller for relief. On the relief cushion can be convex pattern, which provides the necessary mixing and linking layers to each other. For enhanced binding preferably on a raised cushion was convex pattern, which specifies the set of points of the binding, which form a square binding, comprising from about 4 to about 30% of the total area of the platen.

The substrate is moistened wipes or product type wipes may have a total surface density equal to from about 25 to about 120 g/m²and preferably from about 40 to about 90 g/m². This surface is owned by the density of the layered substrate may vary depending on the purpose wipes or product type wipes. In particular, the substrate is suitable for wiping the leather, may have a surface density equal to from about 60 to about 80 g/m²and preferably about 75 g/m². In a specific embodiment, when the substrate includes jointly formed a layer of polypropylene and cellulose fibers to provide superior softness and adequate strength of the layered substrate may have a surface density equal to from about 60 to about 90 g/m²and preferably about 80 g/m².

In a specific embodiment, it is necessary to wet napkin, corresponding to the present invention, possessed sufficient strength to withstand forces applied by the user when it is moistened with water. For example, the substrate for wet wipes or product type wipes may have a tensile strength that is at least about 1.23 N/cm in the longitudinal direction and at least about 0.70 to N/cm in the transverse direction. Also can be used effectively wipes or product type wipes, with other ranges of tensile strength. In the present invention, the term "longitudinal direction" means the direction in which it is produced material, and the transverse direction indicates a direction perpendicular to the longitudinal direction of the Department.

In a specific embodiment, in which the substrate includes a molded together layers of polypropylene and cellulose fibers and polyethylene and cellulose fibers, the coated substrate has a tensile strength equal to from about 1,31 to about 3,50 N/cm in the longitudinal direction and from about 0,84 to about 1,40 N/cm in the transverse direction, and preferably from about 1.58 to about 1,93 N/cm in the longitudinal direction and from about 0,93 to about a 1.11 N/cm in the transverse direction. In this configuration, together formed a layer that contains polypropylene fibers attached to the substrate major part of the strength, and together formed a layer that contains a polyethylene fiber, forming on the substrate a soft surface in contact with the skin of the user. Thus, the tensile strength of such a layered substrate is greater than the tensile strength of one layer containing polyethylene fibers and produces a softer surface than when using a single layer containing polypropylene fibers.

Examples

The following examples are presented to provide a more accurate understanding of the present invention. Specific materials and parameters are shown for example only and are not intended to limit the scope of the present invention.

In the Examples -4 used the following songs:

Example 1

Lipid enriched composition for OBLASTNOI napkins improves skin barrier with respect to the effects of irritating the skin fecal enzyme, trypsin

To assess the ability of lipid enriched compositions for OBLASTNOI napkins to improve the skin barrier against the penetration of trypsin (fecal enzyme, irritating the skin and to prevent the reaction that causes the production of interleukin-1α (IL-1α), which is a measure of inflammation, used modeling skin system EpiDerm™ (Epi-200, Mattek Corporation, Ashland, MA).

The analyzed composition (15 μl) is applied onto a surface simulating the skin system EpiDerm™ and to make fecal enzyme, trypsin, incubated for 30 min at 37°C in an atmosphere containing 5% CO₂. The study was conducted using the environment for research Epi-200, which is not included hydrocortisone and the pH indicator and which is prepared by the manufacturer. After 30 min under the sample medium is removed and replaced with freshly heated environment, and then apply 10 µl of trypsin solution concentration of 200 µg/milluni with skin incubated 6 h, and then under the sample medium is removed and retained for subsequent analyses. Contents released into the environment trypsin determined using a fluorescent substrate (BOC-Gln-Ala-Arg-AMC.HCl, Bachem California Inc., Torrance, CA), specific for trypsin-like activity. To assess the ability of the composition to prevent predostaviteley reaction in the presence of the enzyme in comparison with the control experiment without enzyme also determine the amount of IL-1α in an environment that is carried out by means of commercially available kits for carrying out enzyme-linked immunosorbent assay (ELISA) (Quantikine™ R&D Systems, Minneapolis, MN), it is specific to the IL-1α.

The results identify IL-1α after 6 h show that compared with the control composition composition 1 and 2 improve the skin barrier against trypsin for simulating the skin system EpiDerm™ and weaken predostaviteley reaction.

Example 2

According to the definition of transepidermal water loss (TAPV) enriched in lipid composition contribute to the restoration of the skin barrier

All studies are carried out in a chamber with controlled temperature and humidity (71°F±5°F, relative humidity 40±5%).

2A. 24 female subjects on the skin of the inner side of the forearm, the surface layer which previously removed with sandpaper, put 20 ál of experimental compositions for uverennyh napkins. Definition TAPV conducted by measuring the rate of evaporation of water Dermalab before and after removal of the surface layer of the skin and after 1, 2 and 4 h after application of the composition. Average values TAPU are given in table the CE 1.2. Correction of the data obtained by repeating the definitions TAPV, spend processing results using variance analysis.

According to the definition TAPV all enriched in lipid composition for wet wipes after 1, 2 and 4 h restores the skin barrier compared to the plot on which the composition is not applied.

2B. Table 2.2 shows the CPE is of value TAPV, obtained using the same type of study design, as described above. Values TAPV obtained prior to removal of the surface layer of the skin (baseline), is subtracted from all other values and thus corrects for differences due to the individuality of the subjects. All statistical processing completed for these differences.

The values of the EPV show pieces 5 and 6 lead to the improvement of the skin barrier in comparison with the case where the composition is not applied. In addition, the composition of 6 results in a significantly greater improvement in barrier than composition 5. Composition 5 contains Lipomicron NSLE, the product of the company Sederma (Le Perrayen-Yvelines, France), used in the recommended amount; this product is sold as a substance designed to protect the skin barrier.

Example 3

According to the determination of conductivity of lipid enriched compositions enhance the hydration of the skin

All studies are carried out in a chamber with controlled temperature and humidity (71°F±5°F, relative humidity 40±5%).

3A. On the inner side of the forearm put 20 ál of experimental compositions for uverennyh napkins. The conductivity is determined using an instrument Skicon before applying the compositions and after 1, 2, 4 and 6 h after application. Table 3.1 shows the average values of conductivity. For all time periods using univariate analysis of variance conducted paired mapping.

All songs for moistened wipes after 1, 2, 4 and 6 h after application significantly improve skin hydration compared to the plot on which the composition is not applied.

3V. Table 3.2 shows the average values of conductivity obtained using the same type of study design, as described above, except that after 6 h after application of the composition measurements are not carried out. The values of conductivity obtained before the application (baseline), is subtracted from all other values and thus corrects for differences due to the individuality of the subjects. All statistical processing completed for these differences.

Track 6 leads to a significant increase in skin hydration after 1, 2 and 4 h after application, compared with the case where the composition is not applied. During the research all points in time composition 5 does not increase skin hydration. Composition 5 contains Lipomicron NSLE, the product of the company Sederma (Le Perray-en-Yvelines, France)used in the recommended the amount; this product is sold as a substance designed to protect the skin barrier.

Example 4

Repeated wiping using enriched in lipid compositions. contained in the substrate wipes, preserves the natural healthy condition of the skin and does not damage the skin barrier

All studies are carried out in a chamber with controlled temperature and humidity (71°F±5°F, relative humidity 40±5%).

Wet wipes treated with lipid enriched compositions, the inner side of the forearm 18 subjects repeatedly rubbed over four days using 4 cycles, just sixty times a day. Definition TAPV conducted by measuring the rate of evaporation of water Dermalab at the beginning and at the end of each day. The following table presents average values TAPV obtained at the beginning and at the end of the completion of the study. Correction of the data obtained by repeating the definitions TAPV, spend processing results using variance analysis.

Repeated wiping using enriched in lipid compositions contained in the substrate wipes, preserves the natural healthy condition of the skin and does not damage the skin barrier.

Uverennye wipes treated with lipid enriched compositions, after repeated rubbing for four days retain natural healthy skin condition and not damage the skin barrier.

Thus, in these Examples, it is shown that by using the emulsion composition corresponding to the present invention, it is possible to make moist cloth product type wipes, providing superior beneficial effect on the skin, as well as providing improved protection of the skin barrier function. Accordingly, various embodiments of the present image is etenia can provide wipes or product type wipes, compared to conventional wet wipes have improved a beneficial effect on the skin and provide superior protection of the skin barrier function. These wipes can be used as napkins for babies, wipes, adult wipes for hands, napkins, facial, cosmetic wipes, household wipes, industrial wipes, etc.

Although the present invention is described with specific embodiments, it should be clear that the experts in the art after understanding the above can easily imagine changes, variations and equivalents to these embodiments. In accordance with this, it should be assumed that the scope of the present invention is defined by the appended claims and any equivalents.

1. Moist cloth or product type wipes, which improves the skin barrier, containing at least one emulsion layer and a composition of the type oil-in-water, including:

from 0.1 to 30 wt.% natural fats or oils;

from 0.1 to 10 wt.% Sterol or a derivative of a Sterol;

from 0.1 to 30 wt.% water-holding means;

from 0.5 to 20 wt.% emulsifying surfactants with products HLB value in the range is t 7 to 18; and water to 100 wt.%.

2. The product according to claim 1, in which the specified emulsion composition further comprises an alcohol.

3. The product according to claim 2, wherein said alcohol is less than 70 wt.% from the above-mentioned mixture of alcohol and water.

4. The product according to claim 1, in which the specified emulsion composition has a pH value in the range from 4 to 7.

5. The product according to claim 1, in which the number specified emulsion compositions of the type oil-in-water contained in each given tissue or product type wipes, ranging from 150 to 600 wt.% in calculating the masses of the specified item.

6. The product according to claim 1, wherein said natural fat or oil is an oil of borrajo.

7. The product according to claim 1, wherein said natural fat or oil is avocado oil.

8. The product according to claim 1, wherein said natural fat or oil is a vegetable oil.

9. The product according to claim 1, wherein said Sterol or a derivative of a Sterol is a soy Sterol.

10. The product according to claim 1, wherein said Sterol or derived Sterol is an avocado sterols.

11. The product according to claim 1, wherein said Sterol or a derivative of a Sterol is a cholesterol.

12. The product according to claim 1, in which the specified water-holding tool is glycerin.

13. The product according to claim 1, in which asanee water-holding tool is sorbitol.

14. The product according to claim 1, in which the specified water-holding means is a propylene glycol.

15. The product according to claim 1, in which a specified emulsifying surfactant is literallayout SE.

16. The product according to claim 1, in which a specified emulsifying surfactant is an emulsifying wax NF.

17. The product according to claim 1, in which a specified emulsifying surfactant is propilengikolya SE.

18. The product according to claim 1, in which the specified composition additionally contains from 0.1 to 30 wt.% vaseline or mineral oil.

19. A method of manufacturing wipes or product type wipes, comprising: (a) providing at least a single layer of nonwoven material; (b) the application of this non-woven material emulsion compositions of the type oil-in-water containing natural fat or oil, a Sterol or a derivative of a Sterol, a water retaining agent and emulsifying surfactant having products HLB value in the range from 7 to 18; (C) the cutting of this material into individual sheets from getting moistened wipes or products type of cloth.

20. The method according to claim 19, where the specified product impregnated specified emulsion composition of the type oil-in-water.

21. Emulsion to notice type oil-in-water for making wipes or product type wipes, comprising from 0.1 to 30 wt.% natural fats or oils, from 0.1 to 10 wt.% Sterol or a derivative of a Sterol, from 0.1 to 30 wt.% water-holding means, from 0.5 to 20 wt.% emulsifying surfactants with products HLB value in the range from 7 to 18, and water to 100 wt.%.

22. The composition according to item 21, where additionally contain alcohol.

23. The composition according to item 22, which specified the alcohol is less than 70 wt.% from the above-mentioned mixture of alcohol and water.

24. The composition according to item 21, where the specified emulsion composition has a pH value in the range from 4 to 7.

25. The composition according to item 21, in which these natural fats and oils selected from the group including: avocado oil, apricot oil, babassu oil, borrajo, Camellia oil, canola oil, castor oil, coconut oil, corn oil, cottonseed oil, evening primrose oil, gidrirovannoe cottonseed oil, gidrirovannoe palm kernel oil-derived soybean oil, obtained by using maleic anhydride, seed oil, Limnanthes Alba, palm kernel oil, phospholipids, rapeseed oil, palmitic acid, stearic acid, linoleic acid, stearyl alcohol, lauric alcohol, ministerului alcohol, beganovic alcohol, oil, rosehip oil, sunflower oil, soybean oil and mixtures thereof.

26. The composition according to claim 1, in which is specified the Erin or derived Sterol selected from the group includes: cholesterol, sitosterol, stigmasterol, ergosterol, lanstein, soy Sterol, avocado sterols, esters of cholesterol esters Sterol, avocados, lanolin, and mixtures thereof.

27. The composition according to item 21, in which the number of such fats or oils ranges from 0.5 to 10 wt.%.

28. The composition according to item 21, in which the number of such fats or oils is from 1 to 5 wt.%.

29. The composition according to item 21, further comprising from 0 to 30 wt.% vaseline or mineral oil.

30. The composition according to item 21, in which the number specified emulsifying surfactant is from 1 to 15 wt.%.

31. The composition according to item 21, in which the number of the specified water-retaining substance is from 0.5 to 20 wt.%.

32. The composition according to item 21, including 1 wt.% oil borrajo, 0.8 wt.% of soya Sterol, 5 wt.% glycerol, 3 wt.% glyceraldehyde SE and 90.2 wt.% water.

33. The composition according to p where the specified emulsion composition has a pH of 5.5.

34. The composition according to item 21, including 1 wt.% oil borrajo, 0.8 wt.% of soya Sterol, 5 wt.% glycerol, 3 wt.% glyceraldehyde SE, 1 wt.% vaseline United States Pharmacopeia, 1 wt.% PROLIPID 141 and water to 100 wt.%.

35. The composition according to clause 34, where this emulsion composition has a pH of 5.5.

36. The composition according to item 21, comprising 0.5 wt.% avoiding, 0.5 wt.% esters of Sterol,5 wt.% glycerin, 1 wt.% glyceraldehyde in the form of PROLIPID 141 and water to 100 wt.%.

37. The composition according to p where the specified emulsion composition has a pH of 5.5.

38. The composition according to item 21, comprising 10 wt.% sunflower oil, 1 wt.% cholesterol, 3 wt.% glycerol, 5 wt.% emulsifying wax NF, and water to 100 wt.%.

39. The composition according to § 38, where the specified emulsion composition has a pH of 5.5.

40. The composition according to item 21, comprising 5 wt.% of avocado oil, 1 wt.% larosterna, 1 wt.% sorbitol, 5 wt.% propilengikolya SE and 88 wt.% water.

41. The composition according to p where the specified emulsion composition has a pH of 5.5.

42. The composition according to item 21, comprising 10 wt.% palm kernel oil, 1 wt.% larosterna, 15 wt.% hydrogenated hydrolyzed starch, 15 wt.% glycerylmonostearate, 5 wt.% vaseline or mineral oil and water to 100 wt.%.

43. The composition according to § 42 where the specified emulsion composition has a pH of 5.5.

44. The composition according to item 21, comprising 10 wt.% lanolin, 5 wt.% of soya Sterol, 5 wt.% glycerol, 10 wt.% emulsifying wax NF, 5 wt.% vaseline or mineral oil and water to 100 wt.%.

45. The composition according to item 44, where this emulsion composition has a pH of 5.5.

46. The composition according to item 21, comprising 15 wt.% cottonseed oil, 15 wt.% esters of Sterol, 10 wt.% the PCC is langille, 15 wt.% propilengikolya SE, 10 wt.% vaseline or mineral oil and water to 100 wt.%.

47. The composition according to item 46, where this emulsion composition has a pH of 5.5.

48. The composition according to item 21, comprising 30 wt.% oil of evening primrose, 5 wt.% cholesterol, 5 wt.% sodium PCA, 10 wt.% propilengikolya SE and 50 wt.% water.

49. The composition according to p where the specified emulsion composition has a pH of 5.5.

50. Product type wipes from nonwoven material, which improves the skin barrier containing emulsion composition of the type oil-in-water, including:

from 0.1 to 30 wt.% natural fats or oils;

from 0.1 to 10 wt.% Sterol or a derivative of a Sterol;

from 0.1 to 30 wt.% water-holding means;

from 0.5 to 20 wt.% emulsifying surfactants with products HLB value in the range from 7 to 18; and water to 100 wt.%.

51. The product according to item 50, in which the specified emulsion composition has a pH in the range of 4 to 7.

52. The product according to item 50, where additionally contain alcohol.

53. The product according to paragraph 52, wherein said alcohol is less than 70 wt.% from the above-mentioned mixture of alcohol and water.

54. A method of manufacturing wipes or product type wipes, comprising: (a) providing a nonwoven material; (b) Nan is giving this non-woven material emulsion compositions of the type oil-in-water, contains natural fat or oil, a Sterol or a derivative of a Sterol, a water retaining agent and emulsifying surfactant having products HLB value in the range from 7 to 18; (C) the cutting of this material on separate sheets of paper corresponding to the size of the product type wipes or components of articles such napkins.

55. The method according to item 54, where the specified product or parts of the product type wipes impregnated emulsion composition of the type oil-in-water.

Priority items:

24.01.2000 according to claims 1 to 55.