FR2676361A1 - Process for enhancing the activity of a rosemary extract constituting an active ingredient in a composition for cosmetic and/or dermopharmaceutical use and composition for carrying out the aforementioned process - Google Patents

Abstract

The invention relates to a process for enhancing the activity of a rosemary extract in a composition for cosmetic or dermopharmaceutical use, according to which the aforementioned active ingredient is at least partially included in vesicles consisting of at least one lamella composed of a lipid phase containing at least one ionic and/or nonionic amphiphilic lipid, the aforementioned lamella(e) encapsulating an aqueous phase. The invention also relates to a composition for carrying out the process.

Description

METHOD FOR INCREASING THE ACTIVITY OF AN EXTRACT FROM
ROSEMARY CONSTITUTING AN ACTIVE IN A COMPOSITION
FOR COSMETIC AND / OR DERMOPHARMACEUTICAL USE AND
COMPOSITION FOR CARRYING OUT SAID METHOD.

 The present invention relates to a method for increasing the activity of at least one active agent in a composition for cosmetic use, and / or dermopharmaceutical.

Extracts of rosemary leaves are known as antioxidants of natural origin. Their antioxidant activity vis-à-vis fatty substances has been described, in particular concerning carnosol, rosmarinic acid, rosmanol and rosmaridiphenol. Various methods of extracting rosemary with the aim of obtaining antioxidant extracts have been described. In 1977, for example, extraction was proposed followed by distillation and, more recently, in the patent.
EP 307626, extraction with a non-polar solvent (hexane) and then with a polar solvent (ethanol).

 It is known, moreover, that certain amphiphilic lipids have the property of forming mesomorphic phases whose state of organization is intermediate between the crystalline state and the liquid state and that, among them, some are capable of swelling in the presence of an aqueous solution to form a lamellar phase and, after stirring, forming vesicles or spherules dispersed in an aqueous phase. These vesicles are formed by substantially concentric layers consisting of one or more multimolecular layers, preferably bimolecular, encapsulating an aqueous phase.

According to the present invention,
found that the antioxidant activity of the extract
of rosemary included in lipid vesicles
amphiphiles was significantly higher than tivite of this same pulse extract, as conventionally used. The vesicles incorporating said extract can be used to disperse oils in compositions known per se. Incorporation into the vesicles makes it possible to avoid a large dilution of the active ingredient in the fatty phase of an emulsion and to concentrate the active ingredient and the water-oil interface, which is a preferred site for oxidation phenomena.

 The subject of the present invention is therefore a process for increasing the activity of a rosemary extract constituting an active ingredient in a composition for cosmetic or dermopharmaceutical use, characterized in that said active ingredient is at least partially included in vesicles consisting of at least one sheet formed by a lipid phase containing at least one ionic amphiphilic lipid and / or at least one nonionic amphiphilic lipid, said sheet (s) encapsulating an aqueous phase.

 The above-mentioned vesicles can be prepared by many methods. According to a first process, the lipid phase is dissolved in a volatile solvent, a thin film of lipid phase is formed on the walls of a flask by evaporation of the solvent, the phase to be encapsulated on the lipid film is introduced and the mixture is stirred. mechanically mixing until the desired size of vesicle dispersion is obtained; an aqueous dispersion of vesicles encapsulating an aqueous phase is thus obtained, the encapsulated aqueous phase and the aqueous dispersion phase being identical. According to a second method, the lipid phase is prepared by mixing the amphiphilic lipid (s). and any additives, at a temperature where the mixture is melted, if the mixture is not liquid at room temperature, a lamellar phase is formed by introducing the aqueous phase to be encapsulated; then the lamellar phase is dispersed in the form of vesicles, using an ultradisperser, a homogenizer or ultrasound, in an aqueous dispersion phase. In an alternative form of this process, the formation of the lamellar phase does not constitute a separate stage of the process. The vesicles obtained by these two processes are generally of the "multifilette" type. To obtain vesicles of the "single-walled" type, it is possible to use a process which consists in solubilizing the lipid mixture with octyl glucoside and forming the vesicles according to the teaching of patent FR-A-2543018.This enumeration of processes is in no way limitative and the invention is applicable regardless of the method of manufacturing the vesicles.

The amphiphilic lipids used to obtain the vesicles are lipids having the general formula
X - Y in which X is a hydrophilic group and Y is a lipophilic group. The amphiphilic lipids may be ionic lipids, for which the X group is ionic, or nonionic lipids for which the X group is nonionic.

 The ionic amphiphilic lipids are preferably selected from the group consisting of natural phospholipids, chemically or enzymatically modified or synthetic, anionic compounds and gangliosides.

 Among natural phospholipids include egg lecithin or soy, and sphingomyelin; Among the synthetic phospholipids, mention may be made of dipalmitoyl phosphatidylcholine or hydrogenated lecithin.

formule dans laquelle
R1 représente un radical alkyle ou alcényle en C7 21 ;
R2 représente un radical hydrocarboné, saturé ou insaturé, en C7 - C31 ; et
M représente H, Na, K, NH4 ou un ion ammonium substitué dérivé d'une amine.Among the anionic compounds, those which are represented by the formula

formula in which
R1 represents a C7 21 alkyl or alkenyl radical;
R2 represents a hydrocarbon radical, saturated or unsaturated, C7 - C31; and
M represents H, Na, K, NH4 or a substituted ammonium ion derived from an amine.

dans laquelle -C3H5(OH)O- est représenté par les structures suivantes prises en mélange ou séparément

The nonionic amphiphilic lipids are preferably selected from the group formed by
(1) polyglycerol derivatives, linear or branched, of formula

in which -C3H5 (OH) O- is represented by the following structures taken as a mixture or separately

is a mean statistical value between 2 and 6;
R3 represents
(a) a linear or branched, saturated or unsaturated aliphatic chain containing from 12 to 30 carbon atoms; or the hydrocarbon radicals of the lanolin alcohols;
(b) a residue R'3CO, where R'3 is a linear or branched C11-C17 aliphatic radical; (c) a remainder

où R5 prend la signification (a) donnée pour R3
(2) les éthers de polyglycérol, linéaires ou ramifiés, comportant deux chatnes grasses ;
(3) les alcools gras polyoxyéthylénés et les stérols et phytostérols polyoxyéthylénés ;
(4) les éthers de polyols
(5) les esters de polyols, oxyéthylénés ou non ; ;
(6) les glycolipides d'origine naturelle ou synthétique ;
(7) les hydroxyamides représentés par la formule:

dans laquelle
- R6 désigne un radical alkyle ou alcényle en C7-C21
-R7 désigne un radical hydrocarboné, saturé ou insaturé, en C7C31;
- COA désigne un groupement choisi parmi les deux groupements suivants un reste

<tb> R4OC2H3 <SEP>(<SEP>
<tb> where
. . R4 can take the meaning (a) or (b) given for R3
-OC, H3 (R5 is represented by the following structures, taken as a mixture or separately

where R5 takes the meaning (a) given for R3
(2) polyglycerol ethers, linear or branched, comprising two fatty catkins;
(3) polyoxyethylenated fatty alcohols and polyoxyethylenated sterols and phytosterols;
(4) polyol ethers
(5) polyol esters, oxyethylenated or otherwise; ;
(6) glycolipids of natural or synthetic origin;
(7) hydroxyamides represented by the formula:

in which
R6 denotes a C7-C21 alkyl or alkenyl radical
R7 denotes a hydrocarbon radical, saturated or unsaturated, C7C31;
- COA denotes a group chosen from the two following groups a remainder

or
B is a radical derived from primary or secondary amines, mono- or polyhydroxylated; and
R8 denotes a hydrogen atom or a methyl, ethyl or hydroxyethyl radical; and
a residue -COOZ, where Z represents the remainder of a C3-C7 polyol.

 In the polyglycerol derivatives, the saturated linear aliphatic R3 radical is preferably a lauryl, myristyl, cetyl, stearyl, arachidyl, behenyl, lignoceryl radical or a mixture of these radicals; and the unsaturated aliphatic radical R3 is advantageously a palmitoleyl, oleyl, linoleyl or arachidonyl radical.

 The compounds defined in (3) above are advantageously C 12 to C 22 alcohols bearing 2 to 20 ethylene oxide units (O.E). The sterol is, advantageously, cholesterol; it can be substituted between 2 and 20 units of O.E. Similarly, the phytosterol may be substituted with 2 to 20 moles of O.

The polyolefin ethers defined in (4) above are preferably C2 to C7 polyol alkyl ethers.
The polyol esters defined in (5) above are advantageously sorbitol esters.

 The glycolipids that can be used as nonionic amphiphilic lipids are advantageously the brain cells.

 According to the invention, it is possible to incorporate in the lipid phase additives, which make it possible to reduce the permeability of the vesicles, and / or charged lipids intended to improve the stability of the vesicles, preventing their flocculation and their fusion, and to allow the increase of the rate of encapsulation.

In particular, it is possible to associate with the constituent amphiphilic lipids of the vesicles at least one additive chosen from the group formed by
sterols and their derivatives, more particularly cholesterol, acidic cholesterol sulfate and its alkaline salts, acidic cholesterol phosphate and its alkaline salts
- long-chained alcohols and diols;
long-chain amines and their quaternary ammonium derivatives
dihydroxyalkylamines;
polyoxyethylenated fatty amines;
long-chain amino alcohols and their salts and quaternary ammonium derivatives;
phosphoric esters of fatty alcohols, for example dicetylphosphate and dimyristylphosphate in the form of acids or alkaline salts.

The dispersions of vesicles may contain furthermore
rosemary extract, one or more compound (s) ac
complementary tif (s) with cosmetic activity
and / or dermopharmaceutical, which, depending on their
solubility risks, may have different lo
calisations. If the assets are fat soluble, they are
introduced into the lipid phase constituting the
leaflet (s) of vesicles. If the assets are hydro
soluble, they are present in the aqueous phase in
capulsed vesicles. If the assets are amphiphi
the, they are distributed between the lipid phase and
the aqueous phase encapsulated with a partition coefficient, which varies according to the nature of the amphiphilic active agent and the respective compositions of the lipid phase and of the encapsulated aqueous phase. Water-soluble active agents are, for example, glycerin, sorbitol, erythrulosis and antibiotics; liposoluble actives are, for example, retinoic acid, lipoprotides and steroids.

 The additional active ingredients introduced may have very different cosmetic or dermopharmaceutical activities (or functions) which are given in the table below.

BOARD

<tb> FUNCTION <SEP> ACTIVE <SEP> COMPLEMENTARY <SEP>
<tb> Antioxidant <SEP> or
<tb> anti-radicals
<tb> free.
<Tb>

<SEP><SEP> extracts <SEP> of <SEP> plants <SEP> following <SEP>
<tb><SEP> - <SEP> Hawthorn.
<Tb>

<SEP> - <SEP> Ginkgo <SEP> biloba.
<Tb>

<SEP> - <SEP> Tea <SEP> green.
<Tb>

<SEP> - <SEP> Vine.
<Tb>

<SEP> The <SEP> enzymes
<tb><SEP> - <SEP> Marketed <SEP> under <SEP> la
<tb><SEP> denomination <SEP> SB <SEP> 12 <SEP> by
<tb><SEP> SEDERMA <SEP> and <SEP> constituted
<tb><SEP> by <SEP> a <SEP> mixture <SEP> of <SEP> lacto
<tb><SEP> ferrine <SEP> and <SEP> of <SEP> lacto
<tb><SEP> peroxidase, <SEP> of <SEP> glucose
<tb><SEP> oxidase <SEP> and <SEP> of <SEP> thiocyanate <SEP>
<tb><SEP> of <SEP> potassium.
<Tb>

<SEP> - <SEP> Superoxide <SEP> dismutase.
<Tb>

<SEP> - <SEP> super <SEP> peroxidase.
<Tb>

<SEP><SEP> superphycodismutase <SEP> extracted
<tb><SEP> of algae.
<Tb>

<SEP><SEP> coenzymes <SEP> Q, <SEP> in <SEP> particular <SEP> la
<tb><SEP> coenzyme <SEP> 010.
<Tb>

<SEP><SE> sequestering, <SEP> in <SEP> particular <SEP> of
<tb><SEP> derivatives <SEP> of polyphosphonic acids <SEP>.
<Tb>

<SEP> The <SEP> tannins.
<Tb>

<SEP> The <SEP> selenium <SEP> and <SEP> its <SEP> derivatives, <SEP> in <SEP> party
<tb><SEP> culier <SEP> seleniomethionine <SEP>.
<Tb>

<SEP><SEP> peptides, <SEP> by <SEP> example <SEP> a <SEP> mixture
<tb><SEP> of <SEP> extracts of <SEP> spleen <SEP> and <SEP> of <SEP> thymus,
<tb><SEP> Thiolin <SEP> and <SEP> serum <SEP> albumin <SEP> bovine <SEP> no
<tb><SEP> stabilized.
<Tb>

<SEP> The <SEP> proteins, <SEP> by <SEP> example <SEP> the hemocya
<tb><SEP> nine <SEP> which <SEP> is <SEP> a <SEP> Copper protein <SEP>
<tb><SEP> retrieves <SEP> from <SEP> the <SEP> marine <SEP> snail and
<tb><SEP> apobemocyanin <SEP> which <SEP> is <SEP> a <SEP> protein
<tb><SEP> analog <SEP> without <SEP> copper.
<Tb>

<SEP> The <SEP> flavonols, <SEP> in particular <SEP> the <SEP> catechin,
<tb><SEP> the <SEP> proanthocyanidins, <SEP> the <SEP> flavanols,
<tb><SEP> the <SEP> flavones, <SEP> the <SEP> isoflavones, <SEP> the
<tb><SEP> flavanenols, <SEP> the <SEP> flavanones, <SEP> the
<tb><SEP> flavanes <SEP> and <SEP> the <SEP> chalcones.
<Tb>

<SEP> The <SEP> carotenoldes, <SEP> in particular <SEP> the
<tb><SEP> ss <SEP> -carotene <SEP> and <SEP> the <SEP> annatto.
<Tb>

<SEP><SEP> Sorbohydroxyamic acid.
<Tb>

<SEP> The <SEP> tocopherols, <SEP> in particular <SEP> 1 <SEP>'-tocopherol<SEP>
<tb><SEP> and <SEP> acetate <SEP> of tocopherol. <September>
<Tb>

<SEP><SEP> ascorbyl palmitate <SEP>.
<Tb>

<SEP> The <SEP> gallate <SEP> of <SEP> propyl.
<Tb>

<SEP><SEP> caffeic acid <SEP> and <SEP> its <SEP> derivatives.
<Tb>

<SEP> Ascorbic acid <SEP>.
<Tb>

<SEP> Homogentisic acid <SEP>.
<Tb>

<SEP> erythorbic acid <SEP>.
<Tb>

<SEP> The <SEP> nordihydroguafacetic acid. <September>
<Tb>

<SEP> The <SEP> laurylmethionate <SEP> of <SEP> lysine.
<Tb>

<SEP><SEP> butylbydroxyanisole. <September>
<Tb>

<SEP><SEP> butylhydroxytoluene.
<Tb>

<SEP> The <SEP> substances "SOD <SEP>like".
<Tb>

TABLE (continued 1)

<tb><SEP> FUNCTION <SEP>SEP> COMPLEMENTARY <SEP> ASSETS
<tb><SEP> Moisturizer
<tb><SEP> or <SEP> humectant
<tb><SEP> A <SEP> Replenishment <SEP> of <SEP> Sweat
<tb><SEP>("Normal<SEP> moisturizing <SEP>factors"<SEP> - <SEP> NMF).
<Tb>

<SEP><SEP> Pyroglutamate <SEP> of <SEP> Sodium.
<Tb>

<SEP> Hyaluronic acid <SEP>.
<Tb>

<SEP> The <SEP> derivatives <SEP> of <SEP> chitosan <SEP> (carboxymethyl)
<tb><SEP> chitin).
<Tb>

<SEP><SEP> ss <SEP> -glycerophosphate.
<Tb>

<SEP> The <SEP> lactamide.
<Tb>

<SEP> Acetamide.
<Tb>

<SEP> The <SEP> lactate <SEP> of ethyl, <SEP> of <SEP> sodium <SEP> and <SEP> of
<tb><SEP>triethanolamine;
<tb><SEP> The <SEP> pyrrolidone <SEP> carboxylate <SEP> of <SEP> metals
<tb><SEP> in <SEP> particular <SEP> of <SEP> Mg, <SEP> Zn, <SEP> Fe <SEP> or <SEP> Ca.
<Tb>

<SEP> The <SEP> thiamorpholinone.
<Tb>

<SEP> The orotic acid <SEP>.
<Tb>

<SEP><SEP><SEP> carboxylic acids <SEP> o (-hydroxylated
<tb><SEP> in <SEP> C3 <SEP> to <SEP> C20, <SEP> in particular <SEP> acid
<tb><SEP> d <SEP> -hydroxy <SEP> propionic.
<Tb>

<SEP><SEP> polyols, <SEP> in particular <SEP> inositol,
<tb><SEP> the <SEP> glycerol, <SEP> the <SEP> diglycerin, <SEP> the
<tb><SEP> sorbitol.
<Tb>

<SEP> The <SEP> polyolosides, <SEP> in particular <SEP> alginate
<tb><SEP> and <SEP> guar.
<Tb>

<SEP><SEP> proteins, <SEP> in particular <SEP><SEP> collagen
<tb><SEP> soluble <SEP> and <SEP> the <SEP> gelatin.
<Tb>

<SEP> The <SEP> lipoprotides <SEP> selected <SEP> among <SEP> the
<tb><SEP> derivatives <SEP> mono <SEP> or <SEP> polyacylated <SEP> of acids
<tb><SEP> amines <SEP> or <SEP> of <SEP> polypeptides <SEP> in
<tb><SEP> which <SEP> the <SEP> remains <SEP> acid <SEP> RCO <SEP> contains
<tb><SEP> a <SEP> channe <SEP> hydrocarbon <SEP> in <SEP> C13-C19,
<tb> I <SEP> in particular <SEP><SEP> palmitoylcaseinic acid,
<tb><SEP><SEP> palmitoyl acid <SEP> collagenic, <SEP>
<tb><SEP> derivative <SEP> dipalmitoyl-O-N <SEP> of <SEP> hydroxy- <SEP>
<tb> proline, <SEP> the <SEP> stearoyl <SEP> glutamate <SEP> of
<tb>! <SEP> sodium, <SEP> the <SEP> stearoyl <SEP> tripeptide <SEP> of
<tb><SEP> collagen, <SEP> ltoleyltetrate <SEP> and <SEP> pentapeptide
<tb><SEP> | <SEP> of <SEP> collagen, <SEP> the <SEP> linoleate <SEP> of hydroxyproline.
<tb><SEP> Urea <SEP> and <SEP> its <SEP> derivatives. <SEP> in particular <SEP> la
<tb><SEP> methylurea.
<Tb>

<SEP> The <SEP> extract of <SEP> cutaneous <SEP> tissue, <SEP> in particular
<tb><SEP> the one <SEP> marketed <SEP> under <SEP> the <SEP> denomination
<tb><SEP>"OSMODYN"<SEP> by <SEP> the <SEP> Laboratories
<tb><SEP> Serobiological <SEP> of <SEP> Nancy <SEP> (LSN) <SEP> and
<tb><SEP> containing <SEP> of <SEP> peptides, <SEP> of <SEP> acids
<tb><SEP> amines, <SEP> of <SEP> saccharides <SEP> and <SEP> 17 <SEP>% <SEP> of
<tb><SEP> mannitol.
<Tb>

<SEP> More <SEP> especially <SEP> a <SEP> association
<tb><SEP> of <SEP> glycerol, <SEP> of urea <SEP> and <SEP> of acid
<tb><SEP> palmi <SEP> toylaseinase. <September>
<Tb>

<SEP> Melanoregulator
<tb><SEP> 1) <SEP> accelerator
<tb><SEP> of <SEP> tan. <SEP> The <SEP> oils <SEP> of <SEP> bergamot <SEP> and <SEP> from <SEP> citrus.
<Tb>

<SEP><SEP> -MSH <SEP> and <SEP> its <SEP> synthetic <SEP> counterparts.
<Tb>

<SEP> The <SEP> caffeine.
<Tb>

<SEP> The <SEP> derivatives <SEP> of <SEP> tyrosine, <SEP> in particular <SEP> the
<tb><SEP> tyrosinate <SEP> of <SEP> glucose <SEP> and <SEP> la
<tb><SEP> N-malyltyrosine.
<Tb>

TABLE (continued 2)

<tb> FUNCTION <SEP> ACTIVE <SEP> COMPLEMENTARY <SEP>
<tb> 2) <SEP> Depigmenting
<tb><SEP><SEP> Ascorbic Acid <SEP> or <SEP> Vitamin <SEP> C
<tb><SEP> and <SEP> its <SEP> derivatives, <SEP> in particular
<tb><SEP> Ascorbyl <SEP> Phosphate <SEP> of <SEP> Mg.
<Tb>

<SEP><SEP> hydroxy acids, <SEP> in particular <SEP> acid
<tb><SEP> glycolic.
<Tb>

<SEP><SEP> kojic acid.
<Tb>

<SEP> Arbutin <SEP> and <SEP> its <SEP> derivatives.
<Tb>

<SEP> Hemocyanin <SEP>(SEP> Copper protein <SEP>)
<tb><SEP> marine snail <SEP><SEP> and <SEP> apohemocyanin
<tb><SEP> (protein <SEP> analog <SEP> to <SEP> the previous <SEP>
<tb><SEP> without <SEP> copper).
<Tb>

<SEP> Hydroquinone <SEP> and <SEP> its <SEP> derivatives, <SEP> in particular
<tb><SEP> the <SEP> monoalkyl <SEP> ether <SEP> and <SEP> the <SEP> benzyl ether.
<Tb>

<SEP> staining of <SEP> la
<tb> skin <SEP> (burnishing
<tb> artificial)
<tb><SEP> The ortho <SEP> diacetylbenzene.
<Tb>

<SEP> The <SEP> indoles.
<Tb>

<SEP><SEP> Dihydroxyacetone.
<Tb>

<SEP> Erythrulose.
<Tb>

<SEP><SEP> glyceraldehyde.
<Tb>

<SEP><SEP> X <SEP> -dialdehydes, <SEP> in particular <SEP> aldehyde
<tb><SEP> tartaric.
<Tb>

liporegulators
<tb> (slimming <SEP> and
<tb> anti-acne, <SEP> anti
<tb> seborrhea).
<Tb>

<SEP> The <SEP> complex <SEP> of <SEP> vitamins <SEP> and <SEP> of oligo
<tb><SEP> elements, <SEP> including <SEP> the complex <SEP>
<tb><SEP> vitamin <SEP> B6 / zinc. <September>
<Tb>

<SEP> Orizanol. <September>
<Tb>

<SEP> Azelaic acid <SEP>. <September>
<Tb>

<SEP> The <SEP> xanthines <SEP> and <SEP> alkylxanthines,
<tb><SEP> including <SEP><SEP> extract of <SEP> cola, <SEP><SEP> caffeine
<tb><SEP> and <SEP> the <SEP> theophylline.
<Tb>

<SEP> Adenosine <SEP> monophosphate <SEP> cyclic <SEP> and
<tb><SEP> no <SEP> cyclic.
<Tb>

<SEP> Adenosine <SEP> triphosphate.
<Tb>

<SEP> The extract <SEP> of <SEP> ivy.
<Tb>

<SEP> The extract <SEP> of <SEP> brown <SEP> from India.
<Tb>

<SEP><SEP> Seaweed Extracts <SEP> including <SEP> Extract <SEP>
<tb><SEP> Red Seaweed <SEP><SEP>(SEP> Fucus <SEP> Serratus) <SEP>
<tb><SEP> cytofiltrate.
<Tb>

<SEP> The extract <SEP> of <SEP> ginseng.
<Tb>

<SEP> The extract <SEP> of <SEP> Centella <SEP> Asiatica
<tb><SEP> (asiaticoside) <SEP> containing <SEP> of <SEP> the <SEP> genome <SEP> and
<tb><SEP> of <SEP> Asian <SEP> acid.
<Tb>

<SEP><SEP> thioxolone <SEP> (HBT).
<Tb>

<SEP><SEP> S-carboxymetylcellysine. <September>
<Tb>

<SEP><SEP> S-benzylcysteamine.
<Tb>

TABLE (continued 3)

<tb><SEP> FUNCTION <SEP>SEP> COMPLEMENTARY <SEP> ASSETS
<tb><SEP> Anti-aging
<tb><SEP> and <SEP> anti-wrinkle.
<Tb>

<SEP> The unsaponifiable <SEP> by <SEP> example <SEP> of <SEP> soya <SEP> and <SEP> of avocados. <September>
<Tb>

<SEP><SEP><SEP> fatty acids <SEP> unsaturated, <SEP> in particular
<tb><SEP><SEP> linoleic acid <SEP> and <SEP><SEP> linolenic acid.
<Tb>

<SEP><SEP> hydroxy acids, <SEP> in particular <SEP> acid
<tb><SEP> glycolic.
<Tb>

<SEP> The <SEP> factors <SEP> of <SEP> growth.
<Tb>

<SEP> The <SEP> complexes <SEP> trace elements <SEP> - <SEP> vitamins,
<tb><SEP> including <SEP> B6 <SEP> - <SEP> Zn.
<Tb>

<SEP>. <SEP><SEP> n-octanoyl-5 <SEP> salicylic acid.
<Tb>

<SEP> Adenosine.
<Tb>

<SEP> The <SEP> retinol <SEP> and <SEP> its <SEP> derivatives, <SEP> in particular
<tb><SEP> acetate <SEP> of <SEP> retinol <SEP> and <SEP> the <SEP> palmitate <SEP> of
<tb><SEP> Retinol.
<Tb>

<SEP><SEP> retinoids, <SEP> in particular <SEP><SEP> acids
<tb><SEP> retinoic <SEP> cis <SEP> or <SEP> trans <SEP> and <SEP> those <SEP> described
<tb><SEP> in <SEP><SEP> Patents <SEP> FR-A-2 <SEP> 570 <SEP> 377 <SEP>;
<tb><SEP> EP-A-199636 <SEP>;<SEP> and <SEP> EP-A-325540 <SEP> and <SEP>
<tb><SEP> application <SEP> of <SEP> European <SEP> Patent <SEP> 90-402072.
<Tb>

<SEP> The <SEP> combination of <SEP><SEP> and <SEP> reptiments of <SEP> xanthines.
<Tb>

<SEP> Hydroxyproline.
<Tb>

<SEP><SEP> acids <SEP> sialic.
<Tb>

<SEP> The <SEP> extract of <SEP> spleen, <SEP> of <SEP> thymus, <SEP> Thiolim <SEP> and
<tb><SEP> serum <SEP> albumin <SEP> bovine <SEP> no <SEP> stabilized <SEP> sold
<tb> under <SEP> the <SEP> denomination <SEP> commercial <SEP>"SILAB"<SEP>
<tb><SEP> by <SEP> the <SEP> Company <SEP>"SILAB".
<Tb>

<SEP> A <SEP> extract <SEP> pet <SEP> placental, <SEP> particular
<tb><SEP> the <SEP> embryonic <SEP> placental <SEP> extract of
<tb><SEP> Bovids <SEP> in <SEP> water <SEP> to <SEP> 5.5 <SEP>% <SEP> stabilized <SEP> by
<tb><SEP> 0.2 <SEP> X <SEP> of exyl <SEP> KIOOa <SEP> (matrix). <September>
<Tb>

<SEP><SE>> proteoglycans, <SEP> in <SEP> particular <SEP> the
<tb><SEP> proteoglycan <SEP> of <SEP> cartilage <SEP> of <SEP> trachea <SEP> of
<tb><SEP> bovid <SEP> to <SEP> 5 <SEP> s <SEP> stabilized <SEP> (proteodermin).
<Tb>

<SEP> The <SEP> colostrum.
<Tb>

<SEP> Cellular Oxygenation <SEP><SEP> Factors <SEP>
<tb><SEP> in particular <SEP> the octacosamol. <September>
<Tb>

<SEP> Anti-UV
<tb><SEP> The <SEP> filters <SEP> UV, <SEP> including <SEP> the <SEP> paramethoxy
<tb><SEP> cinnamate <SEP> ethyl <SEP> hexyl <SEP>;<SEP> the <SEP> benzo
<tb><SEP> phenone, <SEP><SEP> Benzylidenecamphor <SEP> and <SEP> their
<tb><SEP> derivatives, <SEP> in <SEP> particular, <SEP> the <SEP> tetrahydroxy
<tb><SEP> 2,2 ', <SEP>4>4'-benzophenone<SEP> and <SEP> acid <SEP> hydroxy-2
<tb><SEP> Methoxy-4 <SEP> Benzophenone-5 <SEP> Sulfonic
<tb><SEP><SEP> paraaminobenzoic acid, <SEP><SEP> salicylate
<tb><SEP> of <SEP> Dipropylene Glycol, <SEP> Octyl <SEP> Salicylate,
<tb><SEP> the <SEP> derivatives <SEP> of <SEP> dibenzoylmethane <SEP> sold <SEP> under
<tb><SEP>'es<SEP> marks <SEP> EUSOLEX <SEP> 8020 <SEP> or <SEP> PARSOL <SE> 1789 <SEP> and
<tb><SEP> the <SEP> products <SEP> sold <SEP> under <SEP> the <SEP> brands
<tb><SEP> SOLEX <SEP> 232, <SEP> UNIVUL <SE> T <SEP> 150, <SE> UNIVUL <SE> N <SE> 539,
<tb><SEP> ESCALOL <SEP> 507. <SEP>
<Tb>

TABLE (continued (4)

<tb> FUNCTION <SEP> ACTIVE <SEP> COMPLEMENTARY <SEP>
<tb> Keratolytic
<tb><SEP><SEP> salicylic acid <SEP> and <SEP> its <SEP> derivatives,
<tb><SEP> such <SEP> as <SEP><SEP> acids <SEP> alkylsalicylic,
<tb><SEP> in particular <SEP> acid <SEP> n-octanoyl-5
<tb><SEP> salicylic <SEP> and <SEP> the <SEP> n-dodecanoyl-5,
<tb><SEP> salicylate <SEP> of <SEP> N-hexadecyl <SEP> pyridinium.
<Tb>

<SEP> Retinoic acid <SEP>. <September>
<Tb>

<SEP> The <SEP> enzymes <SEP> proteolytics, <SEP> in particular
<tb><SEP> the <SEP> trypsin, <SEP> cl-chymotrypsin, <SEP> la
<tb><SEP> papain, <SEP> the <SEP> bromelain <SEP> and <SEP> the <SEP> pepsin.
<tb><SEP> The <SEP> Peroxide <SEP> of <SEP> Benzoyl.
<Tb>

<SEP> Urea.
<Tb>

<SEP><SEP><SEP> -hydroxyacids.
<Tb>

Emollient
<tb><SEP> Esters <SEP> such <SEP> as <SEP> adipate <SEP> isopropyl.
<Tb>

Anti-inflammatory
<tb><SEP><SEP> corticosteroids <SEP> such <SEP> as <SEP><SEP> 17-acetate <SEP>
SEP><SEP> 8 <SEP> -methasone, <SEP> indomethacin, <SEP>
<tb><SEP> ketoprofen, <SEP> flufenamic acid <SEP>,
<tb><SEP> ibuprofen, <SEP><SEP> dichlofenac, <SEP>
<tb><SEP> diflunisal, <SEP> the <SEP> fenclofenac, <SEP> the
<tb><SEP> naproxen, <SEP><SEP> piroxidam, <SEP> and <SEP>
<tb><SEP> sulindac.
<Tb>

<SEP> The <SEP> monostearyl <SEP> ether <SEP> of <SEP> glycerol
<tb><SEP> (alcohol <SEP> batyl) <SEP> and <SEP> the <SEP> mono
<tb><SEP> cetyl ether <SEP> of <SEP> glycerol <SEP> (alcohol)
<tb><SEP> chemyl). <September>
<Tb>

<SEP><SEP> Glycyrrhetinic acid <SEP> and <SEP> its <SEP> salts,
<tb><SEP> in particular <SEP> ammonium.
<tb><SEP> The -bisabolol <SEP>(<SEP> extract of <SEP> chamomile).
<Tb>

<SEP> The <SEP> shikonin.
<Tb>

<SEP><SEP> extracts <SEP> of <SEP> plants, <SEP> such <SEP> as water
<tb><SEP> of <SEP> blueberry, <SEP> arnica, <SEP> aloe.
<Tb>

<SEP><SEP> extracts <SEP> of meristematic <SEP> tissue <SEP>,
<tb><SEP> including <SEP> the <SEP> snippet of <SEP> root <SEP> of <SEP> oak.
<tb><SEP> The <SEP> plankton.
<Tb>

Refreshing
<tb><SEP> The <SEP> menthol.
<Tb>

<SEP><SEP> lactate <SEP> of <SEP> menthyl.
<Tb>

Healing
<tb><SEP> The <SEP> tree of <SEP> skin, <SEP> extract <SEP> of <SEP> mimosa
<tb><SEP> tenui <SEP> flora.
<Tb>

<SEP> The <SEP> extract of <SEP> Centella <SEP> Asiatica.
<tb><SEP><SEP> $ <SEP> -Glycyrrhetinic acid.
<tb><SEP> Hydroxyproline.
<Tb>

<SEP> Arginine.
<Tb>

<SEP> A <SEP> Placental <SEP> extract.
<Tb>

<SEP> A <SEP> extract <SEP> of <SEP> yeast.
<Tb>

<SEP> The <SEP> fagaramide.
<Tb>

<SEP><SEP> N-acetyl <SEP> hydroxyproline.
<tb><SEP> Acid <SEP> acexamic acid <SEP> and <SEP> its <SEP> derivatives.- <SEP>
<Tb>
TABLE (continued 5)

<tb><SEP> FUNCTION <SEP>SEP> COMPLEMENTARY <SEP> ASSETS
<tb><SEP> Protector
<tb><SEP> vascular.
<Tb>

<SEP> The <SEP> flavonoids, <SEP> in particular <SEP> the <SEP> derivatives
<tb><SEP> of <SEP> rutin, <SEP> such <SEP> as <SEP> Etoxazorutin <SEP>
<tb><SEP> and <SEP> the <SEP> rutin <SEP> propylsulfonate <SEP> of <SEP> sodium.
<Tb>

<SEP> The <SEP> extracts <SEP> plants, <SEP> in particular
<tb><SEP> oily SEP extract of SEP Ginkgo SEB biloba,
<tb><SEP> the extract <SEP> of <SEP> brown <SEP> from India <SEP> (escin),
<tb><SEP> of <SEP> ivy <SEP> (saponins) <SEP> and <SEP> of <SEP> small
<tb><SEP> Holly.
<Tb>

<SEP> The <SEP> nicotinate <SEP> of d <SEP> -tocopherol. <September>
<Tb>

<SEP> Anti-bacterial,
<tb><SEP> Antifungal.
<Tb>

<SEP> The <SEP> bromide <SEP> of <SEP> trimethylcetylammonium.
<Tb>

<SEP> Sorbic acid <SEP>.
<Tb>

<SEP> The <SEP> peroxide <SEP> of <SEP> benzoyl.
<Tb>

<SEP> The <SEP> chloride <SEP> of <SEP> cetylpyridiniun. <September>
<Tb>

<SEP> The <SEP> chloride <SEP> of <SEP> benzalkonium.
<Tb>

<SEP><SEP> parahydroxybenzoic acid <SEP> and <SEP> its
<tb><SEP> salts.
<Tb>

<SEP><SEP> bromo-2 <SEP> 2-nitro <SEP> 1,3-propanediol.
<Tb>

<SEP><SEP>3,4,4-trichloro-<SEP> -carbanilide. <September>
<Tb>

<SEP><SEP>2,4,4'-trichlorohydroxy-2
<tb> - <SEP> diphenyl ether. <September>
<Tb>

<SEP> Acid <SEP> dehydroacetic acid.
<Tb>

<SEP> A <SEP> extract <SEP> of <SEP> Grapefruit <SEP> in <SEP> la
<tb><SEP> glycerin <SEP> and <SEP> the <SEP> propylene <SEP> glycol.
<Tb>

<SEP><SEP> Chlorhexidine.
<Tb>

<SEP> Hexetidine.
<Tb>

<SEP> Hexamidine.
<Tb>

<SEP> Repulsor
<tb><SEP><SEP> dimethyltoluamide.
<Tb>

<SEP> Antiperspirant
<tb><SEP><SEP> Hydrochloride <SEP> aluminum.
<Tb>

<SEP> The <SEP> chloride <SEP> of aluminum.
<Tb>

<SEP><SEP> Complex <SEP> Lactate <SEP> of <SEP> Sodium /
<tb><SEP> aluminum <SEP> chlorhydroxy.
<Tb>

<SEP><SEP> Hydrochloride <SEP> from <SEP> zirconyl.
<Tb>

TABLE (continued 6)

<tb> FUNCTION <SEP> ACTIVE <SEP> COMPLEMENTARY <SEP>
<tb> Deodorant.
<Tb>

<SEP> The oxide <SEP> of <SEP> zinc.
<Tb>

<SEP> The <SEP> ricinoleate <SEP> of <SEP> zinc.
<Tb>

<SEP> Ethyl-2 <SEP> 1,3-hexanediol. <September>
<Tb>

<SEP> L <SEP>'Hexachlorophene.<September>
<Tb>

<SEP> The <SEP> product <SEP> sold <SEP> under <SEP> the <SEP> brand
<tb><SEP>"IRGASAN<SEP> DP <SEP>300".
<Tb>

<SEP> The octopyrox <SEP>
<tb> Anti-dandruff. <SEP> The <SEP> omadines.
<Tb>

<SEP> The <SEP> tar <SEP> of <SEP> coal.
<Tb>

<SEP> Hydroxy-1 <SEP> methyl-4 <SEP> trimethyl-2,4,4
<tb><SEP> pentyl-6 <SEP> pyridinone-2.
<Tb>

<SEP> The <SEP> sulfide <SEP> of <SEP> selenium. <September>
<Tb>

Anti fall
<tb><SEP> hair.
<Tb>

<SEP> The <SEP> inhibitors <SEP> of <SEP> glucuronidases.
<Tb>

<SEP> The <SEP> muccopolysaccharides. <September>
<Tb>

<SEP> The <SEP> nicotinate <SEP> of <SEP> methyl <SEP> or <SEP> of hexyl.
<Tb>

<SEP> The <SEP> forskaline. <September>
<Tb>

<SEP> The <SEP> minoxidil.
<Tb>

<SEP> The <SEP> xanthines.
<Tb>

<SEP> The <SEP> retinoids. <September>
<Tb>

Hair Dye <SEP>
<tb><SEP><SEP> bases <SEP> and <SEP> Oxidation <SEP> couplers.
<Tb>

<SEP><SEP> direct <SEP> dyes.
<Tb>

<SEP><SEP> autoxidizable <SEP> dyes.
<Tb>

<SEP> Agent <SEP> bleach
<tb><SEP> for <SEP> hair.
<Tb>

<SEP> The <SEP> hydrogen peroxide <SEP>.
<Tb>

<SEP> Reducer <SEP> for
<tb><SEP> permanent.
<Tb>

<SEP> Thioglycolic acid <SEP>.
<Tb>

<SEP> The <SEP> cysteine.
<Tb>

<SEP><SEP> Cysteamine.
<Tb>

<SEP><SEP> N-Acetyl <SEP> Cysteine.
<Tb>

<SEP><SEP> N-Acetyl <SEP> Cysteamine.
<Tb>

<SEP> The <SEP> thioglycolate <SEP> of <SEP> glycerol.
<Tb>

Agent <SEP> conditioner
<tb> for <SEP> skin <SEP> and <SEP> hair.
<Tb>

<SEP> Polymers <SEP> cationic, <SEP> cations.
<Tb>

For the implementation of the method according to the invention,
one or more complementary assets may be included
defined above, the different assets may be all
lipophilic, all water-soluble or all amphiphilic or
belong to at least two of these categories. Assets
introduced may have the same function or functions
different. It should be noted that some actives have
several functions.

 The subject of the present invention is also a composition for carrying out the abovementioned process, characterized in that it consists of a continuous aqueous phase containing vesicles consisting of at least one sheet formed by a lipid phase containing at least one minus one ionic amphiphilic lipid and / or at least one nonionic amphiphilic lipid, said layers encapsulating an aqueous phase and at least one active ingredient comprising a rosemary extract is included in said vesicles.

 The ionic amphiphilic lipids and / or non-ironic amphiphilic lipids of the lipid phase are those determined above, it is also possible to use complementary active agents as determined above. The lipid phase may contain at least one additive as indicated above.

 The additional active agents may be included in the encapsulated aqueous phase and / or in the lipid phase.

 In the composition, the aqueous dispersion phase may also contain at least one water-soluble complementary active agent and / or the water-solubilized fraction of at least one amphiphilic complementary active agent.

According to a particular embodiment, the aqueous dispersing phase may contain a dispersion of droplets of a immiscible liquid with a layer, which the vesicles stabilize. Therefore, in the presence of ionic amphiphilic lipid vesicles and / or nonionic amphiphilic lipids, it is not necessary to introduce an emulsifier.
standard, such as glycerol monostearate.

The water-immiscible liquid, which may be present as a dispersion in the aqueous dispersion phase, can in particular be
an animal or vegetable oil formed by acid esters -gras and polyols, in particular liquid triglycerides, for example chosen from the group formed by sunflower, corn, soybean, squash, pomegranate and grape, jojoba, sesame, hazelnut, fish oils, tricaprocaprylate of glycerol, or a vegetable or animal oil of formula RgCOOR10, wherein Rg represents the remainder of a higher fatty acid having from 7 to 19 atoms of carbon and R10 represents a branched hydrocarbon chain containing from 3 to 20 carbon atoms, for example Purcellin oil
natural or synthetic essential oils such as, for example, eucalyptus, lavandin, lavender, vetiver, litsea cubeba, lemon, sandalwood, rosemary, chamomile, savory, walnut nutmeg, cinnamon, hyssop, caraway, orange, geraniol, and cade
hydrocarbons, such as hexadecane and paraffin oil;
halogenated carbides, in particular fluorocarbons such as fluoroamines, for example perfluorotributylamine, fluorinated hydrocarbons, for example perfluorodecahydronaphthalene, fluoroesters and fluoroethers;
silicones, for example polysiloxanes, polydimethylsiloxanes and fluorosilicones
- esters of mineral acid and an alcohol
ethers and polyethers.

 The aqueous dispersion phase may also contain additives having neither cosmetic activity nor dermopharmaceutical activity proper, but useful for the formulation of compositions in the form of lotion, cream or serum. These additives are, in particular, taken from the group consisting of gelling agents, preservatives, dyes, opacifiers and perfumes. Among the gelling agents that may be used are cellulose derivatives such as hydroxyethylcellulose, algae derivatives such as satiagum, natural gums, such as tragacanth, and synthetic polymers, in particular acid mixtures. polycarboxyvinyls marketed under the name "CARBOPOL" by the company "GOODRICH".

 In the composition according to the invention, the vesicles generally have a mean diameter of between 10 and 5000 nm. When the aqueous phase contains a dispersion of water-immiscible liquid droplets, these droplets advantageously have a mean diameter of between 100 and 10,000 nm.

 The following examples, which are given purely for illustrative and non-limiting purposes, will better understand the invention.

où -C3H5(OH)-O- est constitué par un mélange des radicaux

où # = 6 ;
et où R11 est un mélange des radicaux C14H29 et Cl6H33
On utilise un extrait de romarin "RD" fourni par la société
"Nestlé" et obtenu à partir de feuilles de romarin désodori sées par un proce1de' consistant en une extraction à étapes mul
tiples avec décoloration (selon exemple 4 du brevet EP-307 626).EXAMPLE 1
1) Preparation of a Composition According to the Invention
A nonionic lipid of formula
C12H25 - [- OC2H3 (R11)] - O- [C3H5 (OH) -O-] - H (I)
where -O C2H3 R1 is constituted by a mixture of radicals

where -C3H5 (OH) -O- is a mixture of radicals

where # = 6;
and where R11 is a mixture of the radicals C14H29 and Cl6H33
Rosemary extract "RD" supplied by the company is used
"Nestlé" obtained from deodorized rosemary leaves by a process consisting of a multi-step extraction
tiples with discoloration (according to example 4 of EP-307 626).

In a 200 ml round flask, the following products are dissolved in 20 ml of a solvent mixture (chloroform / methanol in the ratio 2: 1).
Nonionic amphiphilic lipid of formula (I) above ............... 0.95 g
Dimyristyl phosphate ................. 0.05 g
Rosemary extract "RD" provided by the company gNESTLE "0,1 g
The solvent is evaporated using a rotary evaporator and the last traces of solvent are removed by passing to the vane pump for 1 hour. The combination of lipids obtained is brought into contact with 66.89 g of demineralised water, in which 0.1 g of disodium salt of ethylenediaminetetraacetic acid has been dissolved. The mixture is homogenized using a shaker. for 2 hours at a temperature of 400C, then slowly returns to room temperature. A dispersion of lipid vesicles with an average size of 300 nm is thus obtained. After having poured the dispersion into a 200 ml fluted container, it was subjected to the action of a "VIRTIS" ultradisperser for 4 minutes at a temperature of 200 ° C. at a speed of 40000 rpm. The dispersion of lipid vesicles, the average size of which is 200 nm, is thus refined. 16 g of sunflower oil were then added, in which 0.05 g of propyl parabenzoate (preservative) was dissolved. The whole is subjected to the action of the ultradisperser "VIRTIS" for 8 minutes at a speed of 40000 t / mm and at a temperature of 200C.

Finally, the following substances are added
Polyvinyl carboxylic acid sold under the name "6Carbophol 941" by the company "(; 00DRlCH 0.4 g
Methyl parahydroxybenzoate ....... 0.2 g
Triethanolamine ...................... 0.26 g
Demineralized water .................... 15 g
2) By way of comparison, according to the conventional process for obtaining emulsions, an emulsion of the following composition was prepared
Surfactant sold under the name "MYRJ 49" by the company "ICI" ....... 1.75 g
Surfactant sold under the name "2RLACEL 165" by the company "ICI" .... 1.75 g
Cetyl alcohol ..................... 0.6 g
Stearic alcohol ..................... 0.6 g
Stearin ............................. 2.5 g
Propyl paraoxybenzoate ........... 0.05 g
Sunflower oil ................... 16 g
Rosemary extract RD ................ 0,1 g
Ethylenediaminetetraacetic acid .... 0.1 g
Methyl paraoxybenzoate ............. 0.2 g
Polyvinylcarboxylic acid sold under the name "Carbopol 941" by the company "Goodrich" 0.4 g
Triethanolamine ...................... 0,1 g
Demineralized water .................... 75.85 g
3) Efficiency test
The antioxidant activity of rosemary extract
RD was evaluated with respect to the oxidability of sunflower oil in the composition according to the invention and in the emulsion. The oxidation of these formulas was controlled by the skin technique space "kinetic to 4 storage times: O - 2 - 4 and 6 days at 800C on a test sample of 1 g The results obtained are as follows

<tb> TIME <SEP> IN <SEP> DAYS <SEP> SURFACE <SEP> FROM <SEP> PIC <SEP> FROM <SEP> PENTANE <SEP> (a) <SEP>
<tb><SEP> Emulsion <SEP> Composition <SEP> according to
<tb><SEP> the invention
<tb><SEP> T <SEP> = <SE> O <SEP> 134 <SEP> O
<tb><SEP> T <SEP> = <SEP> 2 <SE> 531 <SE> O
<tb><SEP> T <SEP> = <SEP> 4 <SEP> 689 <SE> 148
<tb><SEP> T <SEP> = <SEP> 6 <SEP> 955 <SEP> 589
<tb> (a) Pentane is a marker of peroxidation.

The results show that rosemary extract
RD has greater antioxidant activity when included in the lipid phase of vesicles than when in emulsion form.

EXAMPLE 2
In a 200 ml round flask, the following products are dissolved in 50 ml of a solvent mixture (chloroform / methanol in the ratio 2: 1).
Hydrogenated soy lecithin sold under the trade name "Lecinol S 10" by the company "Nikko" ..... 1.8 g - Cholesterol ................... ..................... 0.9 g - Lipoamino acid sold under the trade name
"Palmitoyl collagenic PCO lipid" by the company
"Rhône Poulenc" .......................................... 0.3 g - Rosemary extract "RD" provided by the company
"Nestlé" ............................................... ....... 0.3 g - Methylparahydroxybenzoate .............................. 0.3 g
The solvent is evaporated using a rotary evaporator and the last traces of solvent are removed by passage to the vane pump for 1 hour. The lipid combination obtained is brought into contact with 30 g of demineralised water in which 0.1 g of disodium salt of ethylene diamino tetracetic acid was dissolved.

The mixture is homogenized with the aid of a shaker for 2 hours at a temperature of 700 ° C. and is then slowly returned to ambient temperature. A dispersion of lipid spherules with an average size of 400 nm is thus obtained.

After having poured the dispersion into a 200 ml fluted container, it was subjected to the action of a "Virtis" ultradisperser for 4 minutes at a temperature of 200 ° C. at a speed of 40000 rpm. The dispersion of lipid spherules, whose average size is 200 nm, is thus refined.

To the dispersion obtained, the following substances are added: - Perfume ................................. 0,2 g - Grape seed oil ............... 15 g - Blend of polycarboxyvinyl acids sold under
the trade name "CARBOPOL 940"
by the company "GOODRICH" 0.2 g - Triethanolamine 0.2 g - Demineralised water 10 g
This gives a white cream for the face.

EXAMPLE 3
In a fluted container of 200 ml, the following products are weighed: - Hydroalcoholic gel (160 alcoholic)
20% by weight of soy lecithin
hydrogenated, sold under the name
commercial "Natipid It" by society
- "NATTERMAN" 5 g - Rosemary extract "RD" provided by the company
"NESTLE1, 0.1 g - Demineralized water 30 g - Disodium salt of ethylene diamino acid
Tetracetic 0.1 g
The mixture is homogenized using a spatula and is then subjected to the action of an ultraviolet disperser "Virtis" for 4 minutes at a temperature of 200C at a speed of 40000 rpm. The dispersion of lipid vesicles, the average size of which is 200 nm, is thus refined.

To the dispersion thus obtained, the following products are added
- Perfume .......................................... 0,12 g
- Methyl parahydroxybenzoate ............ 0.10 g
- Polycarboxyvinyl acid mixture sold
under the trade name 1, CARB0POL
940 "by the company" GOODRICH ".............. 0,12 g
- Triethanolamine .......................... 0,12 g
A care fluid is thereby obtained for fragile or sun-exposed skins having an antioxidant role vis-à-vis cutaneous lipids.

EXAMPLE 4
In a 200-ml round flask, the following products are dissolved in 20 ml of a solvent mixture (chloroform / methanol in the ratio 2: 1): - Phosphatidyl purified soy lecithin
choline and phosphatidylethanolamine sold
under the trade name "LIPOID S 75"
by the company "LIPOID GmbH" .................. 1 g - Rosemary extract "RD" supplied by the company
'1NESTLE' 0,1 g
The solvent is evaporated using a rotary evaporator and the last traces of solvent are removed by passing to the vane pump for 1 hour. The combination of lipids obtained is brought into contact with 30 g of demineralized water in which 0.1 g of disodium salt of ethylene-diamino-tetraacetic acid is dissolved. The mixture is homogenized using a shaker. for 2 hours at a temperature of 400C then slowly returns to room temperature. This gives a dispersion of lipid vesicles, the average size of which is 300 nm.

After having poured the dispersion into a 200 ml fluted container, it was subjected to the action of a "Virtis" ultradisperser for 4 minutes at a temperature of 200 ° C. at a speed of 40000 rpm. The dispersion of lipid vesicles, whose mean size passes to 100 nm, is thus refined.

To the dispersion of vesicles thus obtained, the following substances are added: - Perfume ................................... .................. 0.12 g - Methylparahydroxybenzoate ........................ 0.10 g - Carboxyvinyl acid mixture sold under the name
commercial "CARBOPOL 940" by the company "GOODRICH" ......... 0,12 g - Triethanolamine ........................ .................... 0.12 g
A care fluid for fragile or sun-exposed skins is thus obtained, this fluid having an antioxidant role vis-à-vis the cutaneous lipids.

EXAMPLE 5
In a 200 ml round-bottomed flask, the following products are dissolved in 20 ml of a solvent mixture (chlofoform / methanol in the ratio 2/1): Nonionic amphiphilic lipid of formula

. n vaut 3 ........................................ 0,475 - Cholesterol .............................................. 0,475 - Dicetylphosphate ......................................... 0,05 - Extrait de romarin "RD" fourni par la société "NESTLE".... 0,1
On évapore le solvant à l'aide d'un évaporateur rotatif et on élimine les dernières traces de solvant par passage à la pompe à palettes pendant 1 heure. On met au contact l'association de lipides obtenue avec 30 g d'eau déminéralisée dans laquelle on a dissous 0,1 g de sel disodique de l'acide éthylène-diamino-tétracétique. <tb> R11O <SEP> - [- <SEP> C3H5 <SEP> (OH) O-] - n- <SEP> H <SEP>
<tb> formula in which:
. R11 is a hexadecyl radical
-C3H5 (OH) -O represents:

. n is 3 ........................................ 0.475 - Cholesterol .... .......................................... 0,475 - Dicetylphosphate ..... .................................... 0.05 - Rosemary extract "RD" provided by the company "NESTLE" .... 0,1
The solvent is evaporated using a rotary evaporator and the last traces of solvent are removed by passing to the vane pump for 1 hour. The combination of lipids obtained is brought into contact with 30 g of demineralized water in which 0.1 g of disodium salt of ethylene-diamino-tetraacetic acid has been dissolved.

The mixture is homogenized with the aid of a shaker for 2 hours at a temperature of 700 ° C. and is then slowly returned to ambient temperature. A dispersion of lipid vesicles, the average size of which is 400 nm, is thus obtained.

After having poured the dispersion into a 200 ml fluted container, it is exposed to the action of a "Virtis" ultradisperser for 4 minutes at a temperature of 200 ° C. at a speed of 40000 rpm. The dispersion of lipid vesicles whose average size passes to 200 nm is thus refined.

To this dispersion of vesicles, the following substances are added - Fragrance ..................................... ................ 0.12 - Methylparahydroxybenzoate ........................... .. 0,10 - Carboxyvinylic acid mixture sold under the name
commercial "CARBOPOL 940" by the company "GOODRICH" ....... 0,12 - Triethanolamine ........................... .............. 0.12
A care fluid for fragile or sun-exposed skins is thus obtained, this fluid having an antioxidant role vis-à-vis cutaneous lipids.

From each of the vesicle dispersions obtained in Examples 2 to 5 above, after the passage to the "Virtis" ultradisperser, it was verified by high performance liquid chromatography that the lipid walls of the vesicles contained rosemary extract. used.

Claims (16)

 A method for increasing the activity of a rosemary extract constituting an active ingredient in a cosmetic or dermopharmaceutical composition, characterized in that said active ingredient is at least partially included in vesicles constituting at least one leaflet formed by a lipid phase containing at least one ionic amphiphilic lipid and / or at least one nonionic lipid, the said sheet (s) encapsulating an aqueous phase.  2. Method according to claim 1, characterized in that the ionic amphiphilic lipids are selected from the group consisting of natural or synthetic phospholipids, anionic compounds and gangliosides.  3. Method according to claim 2, characterized in that the ionic amphiphilic lipids are chosen from the group formed by egg or soy lecithin, sphingomyelin, dipalmitoyl phbsphatidylcholine, hydrogenated lecithin or compounds of formula

 formula in which  RI represents a C7-C21 alkyl or alkenyl radical  N represents a saturated or unsaturated C7-51 hydrocarbon radical; ; and  M represents H, Na, K, NH4 or a substituted ammonium ion derived from an amine.  4. Method according to claim 1, characterized in that the nonionic amphiphilic lipids are chosen from the group formed by  (1) linear or branched glycerol derivatives of formula

 (b) a residue R'3CO, where R'3 is a linear or branched C11-C17 aliphatic radical: (c) a residue  (a) a linear or branched, saturated or unsaturated aliphatic chain containing from 12 to 30 carbon atoms; or hydrocarbon radicals of lanolin alcohols  R3- represents  . n is an average statistical value between 2 and 6

 .-C3H5 (OH) O- is represented by the structures <tb> in which <tb> R30jC3H5 (0H) 0} M <SEP> H  5.Procédé according to one of claims 1 to 4, characterized in that is incorporated in the lipid phase at least one additive selected from the group consisting of sterols, sulfate and phosphate cholesterol acid form or alkali metal salts, long chain alcohols and diols, long chain amines and quaternary ammonium derivatives thereof, dihydroxyalkylamines, polyoxyethylenated fatty amines, long chain amino alcohol esters and their quaternary ammonium salts and derivatives, and phosphoric esters of fatty alcohols in acidic form or of alkaline salts.  a residue -COOZ, where Z represents the remainder of a C3 - C7 polyol  B is a radical derived from primary or secondary amines, mono- or polyhydroxylated; and. h denotes a hydrogen atom or a methyl, ethyl or hydroxyethyl radical; and  or

 - COA denotes a group chosen from the two following groups a remainder  RI denotes a hydrocarbon radical, saturated or unsaturated, C7 - C31  R6 denotes a C7-C21 alkyl or alkenyl radical;  in which

 (7) the hydroxyamides represented by the formula  (6) glycolipids of natural or synthetic origin  (5) polyol esters, oxyethylenated or otherwise  (4) polyol ethers;  (3) polyoxyethylenated fatty alcohols and polyoxyethylenated sterols and phytosterols;  (2) polyglycerol ethers, linear or branched, comprising two fatty chains;  where R takes the meaning (a) given for R3

 . -OC2H3 (R5) - is represented by the following structures, taken as a mixture or separately  .R4 can take the meaning (a) or (b) given for R3; <tb> where <tb> R4oe2H3 <SEP> (R5 <SEP>  6. Method according to one of claims 1 to 5, characterized in that sn introduces less an active  liposoluble supplement other than rosemary extract in  the lipid phase forming the layers of the vesicles.  7. Method according to one of claims 1 to 6, characterized  rised by the fact that at least one complementary asset is introduced  water soluble in the encapsulated aqueous phase.  8. Method according to one of claims 1 to 7, characterized  rised by the fact that at least one amphiphilic asset is distributed  the lipid phase and the encapsulated aqueous phase.  9. Method according to one of claims I to 8, characterized in that the active (active) is (are) chosen (s) in the group formed by the assets having on the skin at least one of the following functions : antioxidant or free antiradical, hydration, melanoregulation, coloring, liporegulation, anti-aging action, anti-UV, keratolytic, anti-inflammatory, refreshing, healing, vascular protection, anti-bacterial, bactericidal, antifungal , an antiperspirant action, deodorant, anti-dandruff action, anti-hair loss, hair coloring or discoloration, reducer for permanent and conditioning.  10. Composition for carrying out the method according to one of claims 1 to 9, characterized in that it consists of a continuous aqueous phase containing, in the form of dispersion, vesicles consisting of at least one sheet formed by a lipid phase containing at least one ionic amphiphilic lipid and / or at least one nonionic amphiphilic lipid, the sheet (s) encapsulating an aqueous phase and that at least one active ingredient comprising a rosemary extract is included in said vesicles.  11. Composition according to Claim 10, characterized in that the aqueous dispersion phase contains at least one water-soluble active ingredient and / or the hydrosolubilized fraction of at least one amphiphilic complementary active agent.  12. Composition according to one of claims 10 or 11, characterized in that the aqueous dispersion phase contains a dispersion of droplets of a liquid immiscible with 11 water.  13. Composition according to one of claims 10 to 12, characterized in that the-aqueous dispersion phase contains at least one additive selected from the group consisting of gelling agents, alkalising or acidifying agents, preservatives , dyes, opacifiers and perfumes.  14. Composition according to one of claims 10 to 13, characterized in that the vesicles have a mean diameter of between 10 and 5000 nm.  15. Composition according to claim 12, characterized in that the droplets of water-immiscible liquid have a diameter of between 100 and 10000 nm.  16. Composition according to one of claims 12 or 15, characterized in that the water immiscible liquid dispersed in the form of droplets consists of at least one product selected from the group consisting of  an animal or vegetable oil formed by esters of fatty acids and polyols, in particular liquid triglycerides, for example chosen from the group formed by sunflower, maize, soya, squash and grape seed oils , jojoba, sesame, hazelnut, fish oils, tricaprocaprylate of glycerol, or a vegetable or animal oil of formula RgCOOR10, wherein Rg is the residue of a higher fatty acid having from 7 to 19 atoms of carbon and R10 represents a branched hydrocarbon chain containing from 3 to 20 carbon atoms, for example Purcellin oil  natural or synthetic essential oils such as, for example, eucalyptus, lavandin, lavender, vetiver, litsea cubeba, lemon, sandalwood, rosemary, chamomile, savory, walnut nutmeg, cinnamon, hyssop, caraway, orange, geraniol, and cade  hydrocarbons, such as hexadecane and paraffin oil;  halogenated carbides, in particular fluorocarbons such as fluoroamines, for example perfluorotributylamine, fluorinated hydrocarbons, for example perfluorodecahydronaphthalene, fluoroesters and fluoroethers;  silicones, for example polysiloxanes, polydimethylsiloxanes and fluorosilicones  esters of mineral acid and an alcohol;  ethers and polyethers.