CA1339725C - Keratin hydrolysate and wax composition for the makeup of eyelashes - Google Patents

Abstract

The wax-based mascaras containing keratin hydrolysates having a molecular weight greater than 50,000 have improved eyelash sheathing, stability and eyelash lengthening properties.

Description

133 ~ 72.i WAX-BASED EYELASH MAKE-UP COMPOSITION
AND KERATIN HYDROLYSATE.
The present invention relates to a composition eyelash makeup, commonly called mascara.
To obtain satisfactory makeup eyelashes, mascaras must have a certain number of characteristics: they must allow to ensure a uniform coating of the eyelashes and stable over time, ensuring longer eyelashes and allow rapid application.
Generally, the mascaras used are based on waxes. But it has been observed that when the only waxes are used, after application cation on the eyelashes, a non-homogeneous film which gives rise to the formation of immediate crisp films.
after drying. To remedy this drawback, we proposed the addition to wax of different adjuvants. By adding a thickening agent, like hydroxyethylcellulose, we improve the homogeneity of the film deposited on the eyelashes. But the stability of this film is not sufficient because there appearance of crisp dandruff after which that hours. In addition, eyelash lengthening is weak.
It has also been proposed to add to the mixture wax and thickening agent a cohesive agent such as coloph2ne and its derivatives.
We also know mascaras made from mixtures of waxes e ~ of polymers ar.i ~ niqucc and action.
These mascaras per ~, ettent ur. gair.age by ~ ait eyelash and aug ~ entent sensitive ~, ent the allor.gement of the eyelash.
Ma.happeuse ¢ ient, these Fia ~ illages de ~ cndent un cert2in application times in order to obtain the perfect sheathing 1 ~ 3 ~ 7 ~

Eyelash, , In British patent application no. 2167301, published on May 29, 1986, mascaras containing waxes are described and sulfonated keratin derivatives of formula (I):

o he K ~ -NH-CH-C -------- K
¦ (I), 1 ~ ~
S03 M _ AT

formula in which:
- K represents the rest of the keratin;
- M ~ represents H0, a cation derived from a alkali metal or magnesium, or N (R) 4, formula in which the radicals R are identical or different and represent a hydrogen atom or else an alkyl or hydroxyalkyl radical having at most 4 carbon atoms, the motif A representing from 3 to 15%
by weight of the keratin derivative.
The mascaras obtained have a great speed of application, a significant elongation of eyelashes and good stability.
In the present application, we have found that using another keratin derivative, a hydrolyzed keratin, we would also get t, excellent results. Hydrolyzed keratin has the avarage to be 3 ~ used in addition fai ~ le ~ uar! Tité. In the continuation of the description, we call keratin hydrclysate, ur; e partially hydrolyzed keratin.
The present invention has dGnc rour object ur, e compGcition of eyelash makeup, or mascara, ccmprenant. in a cosmetically acceptable medium, i ~

133972.i at least one wax having a melting point included between 60 and 110 ~ C, characterized in that it contains at least one keratin hydrolyzate having an average molecular weight of between 50,000 and 200,000, the weight ratio of the amount of hydro-keratin lysate used in quantity of wax (es) used ~ being between 0.005 and 0.5.
Hydrolysates with molecular weight close to 100,000 are particularly suitable.
When the molecular weight is lower at 50,000, mascara does not make it possible to obtain a gay-satisfactory eyelash stroke. Film-forming properties of mascara are not satisfactory.
Keratin, from which hydro-keratin lysate is prepared, can be obtained from hair, wool, hooves, horn, hair, bristles or feathers.
We use this keratin preferably that from skins because it is richer in sulfur compounds.
The hydrolysates are preferably used ~ e ~ terry obtained by moderate alkaline hydrolysis.
In the alkaline hydrolysis process, treats keratin stance (hair, hair, hooves, etc.) with a mineral base such as soda, potash, barium hydroxide, lithium hydroxide, c ~ rbor, ate of sodiu ~, of potassium um, or of lithium, sodium silicate or borax The reaction is monitored 3C of hyàrolysis of fa ~ cn to zvoi r ur. pr3àui- de? cids mc'écul-ire ~, oycn superior to 5G.GOO
The kérctine hydrolyzate gives bo ~ s pro results ~ relative proportion ~ .cnt f2ible included between G, 05 and 5 ~ in weight as compared to pGids tctal of the CGmposition ~

13 ~ 72.S

The waxes chosen have, as a rule, a melting point between 60 and 110 ~ C
and needle penetration, at 25 ~ C, from 3 to 40, as measured according to the American standard ASTM D5 or according to French standard NFT 004. The principle of measuring the penetration of a needle according to the ASTM D5 and NFT 004 standards measure the depth, expressed in tenths of a millimeter, at which enters a standard needle (weighing

2.5 g placed in a needle holder weighing 47.5 g, total 50g) placed on the wax for 5 seconds.
The waxes used in accordance with the invention are chosen from animal waxes, waxes vegetable, mineral waxes, synthetic waxes ques, and various fractions of natural waxes, all these waxes having both characteristics indicated above.
Among animal waxes, we can cite beeswaxes, lanolin waxes and waxes insects from China.
Among the vegetable waxes, mention may be made of Carnauba, Candelilla, Ouricurry waxes, cork fiber waxes, sugar cane waxes and Japanese waxes.
For mineral waxes, there may be mentioned, in particular, paraffins, microcrystalline waxes tallir, es, Montan waxes and ozGkerites.
For synthetic waxes, you can 3Q mention, in particular, polyethylene waxes, the waxes obtained by Fisher's synthesis and Tropsch, and the waxy copolymers and their esters.
These sofit waxes well known in the state of the technique. In accordance with the invention, the (or lesj 133972 ~ i wax (es) is (or are) present in the compositions mascara in proportions included between 2 and 40% by weight relative to the total weight of composition.
Waxes usable according to the present invention are preferably strong and rigid at a temperature below 50 ~ C.
The mascara compositions according to the present invention may contain, in addition to hydro-keratin lysate and waxes, pigments. We obtains, thanks to the presence of keratin hydrolysates mentioned above, a good distribution of these pigments in the compositions as well as an improvement in their attachment to the eyelashes.
Pigments that can be used in accordance with the invention are chosen from mineral pigments, organic pigments and pearlescent pigments.
We can cite, as examples of pig-minerals, titanium dioxide (rutile or ana ~ ase) possibly surface treated and codified in the Color Index under the reference CI 77 891, the black, yellow, red and brown iron oxides, codified under the references CI 77 499, 77 492, 77 491, manganese violet (CI 77 742), ultramarine blue (CI 77 007), chromium oxide (CI 77 288), hydrate chromium (CI 77 289), ferric blue (CI 77 510).
The organic pigments are chosen, in particular,? ârmi pigments D and C rra n ~ 19 (CI 45 170 ~, D and C red n ~ 9 (CI 15 585), D and C
3_ red n ~ 21 (CI 45 3 & 0), D and C crange n ~ 4 (CI 15 570), 133 ~ 72 ~

D and C orange n ~ 5 (CI 45 370 ~, D and C red n ~ 27 (CI 45 410), D and C red n ~ 13 (CI 15 630), D and C
red n ~ 7 (CI 15 850), D and C red n ~ 6 (CI 15 850), D and C yellow n ~ 5 (CI 19 140), D and C red n ~ 36 (CI 12 085), D and C orange n ~ 10 (CI 45 425), D and C
yellow n ~ 6 (CI 15 985), D and C red n ~ 30 (CI 73 360), D and C red n ~ 3 (CI 45 430) and lacquers based on cochineal carmine (CI 75 470).
Pearly pigments can be chosen among white pearlescent pigments such as mica coated with titanium oxide, bismuth oxychloride, colored pearlescent pigments such as titanium mica with iron oxides, titanium mica with blue ferric, chromium oxide ~ etc ..., mica titanium with a pig ~, organic ent of the aforementioned type as well as those based on blsmuth oxychloride.
Pigments, when used, are present in proportions of 3 to Z0% by weight relative to the total weight of the following composition the coloring and the intensity of the coloring that one seeks to obtain.
The compositions according to the present invention may in particular be in the form of emulsions oil-in-water or water-in-oil, or as suspensions in solvent medium, or in the form solid or pasty anhydrous. The operating modes for the preparation of these different types of composition sition are well known from the HoF. ~ e of llcrt.
When used in the form emulsions, co p3sitisns can co-hold surfactants well known in the state of the technical.
A particular realization preferred csnslste à prepar ~ des é. ~ ulsi ~ ns ani ~ niq ~ es ou non ionic using ar, ionic surfactants 133 ~ 2- ~

ques or non-ionic in proportions of preferred between 2 and 30% by weight relative to the total weight of the composition.
Among the anionic surfactants which can be used alone or as a mixture, may in particular mention the alkaline salts, ammonium salts, amine salts or amino salts alcohol of the following compounds:
- alkyl sulfates, alkyl ether sulfates, alkyl sulfides and sulfate ethers, alkylaryl-polyethersulfates, monoglycerides sulfates, - alkyl sulfonates, alkyl amides sulfonates, alkylarylsulfonates, ~ -olefins sulfona-your sulfonate paraffins, - alkyl sulfosuccinates, alkyl ether-sulfosuccinates, alkylsulfosuccinates, - alkyl sulfosuccinamates, - alkylsulfoacetates, alkylpoly-glycerol carboxylates, - alcoylphosphates / alcoylétherphos-phates, - alkylsarcosinates, alkylpolypeptida-tes, alkylidopolypeptidates, alkylisethionates, alkylltaurates.
The alkyl radical in all of these compounds generally denotes a chain of 12 to 18 atoms of carbon.
Other anicnic surfactants consist of the salts of fatty acids such as

3 ~ oleic, ricinucleic, palmitic, stezric acidcc, ccprah oil or coconut oil hydrogenated and in particular the amine salts such as mine stearates.
We can é ~ ale ~ ient quote:
- 2cyl lactylates whose radical acyl comprises from 8 to 20 carbon ato ~ es, - carboxylic acids of ethers polyglycolic corresponding to the formula:
Alk - (OCH2-CH2) n - OCH2 in acid or salified form where the substituent Alk corresponds to a linear chain having from 12 to 18 carbon atoms and where n is an integer between 5 and 15.
Among the nonionic surfactants which can be used alone or as a mixture, mention in particular: alcohols, alkylphenols and polyethoxylated, polypropoxylated or fatty chain polyglycerol comprising 8 to 18 carbon atoms. We can also cite copo-lymers of ethylene and propylene oxides, ethylene and propylene oxide condensates on fatty alcohols, polyethoxylated fatty amides, amines polyethoxylated fats, ethanolamides, esters glycol fatty acids, fatty acid esters sorbitan oxyethylenated or not, acid esters sucrose fat, fatty acid esters of polyethylene glycols, phosphoric triesters, fatty acid esters of glucose derivatives.
Other compounds in this class are the condensation products of a ~ -diol, a monoalcohol, an alkylphenol, an amide or a diglycolamide with ~ lycidol or a precursor of glyciàcl. These condens2tion products are p2rticulier:
- those responding to the forF, only:
R4 - CHOH - CH2 - C - (CY'2 ~ CHOH - CH - Q ' d-ns which R4 des ~ ne a radical aliphatiq ~ e, cyclo21iphatio.ue or arylaliphatic having pre-féren_e between 7 and 21 carbon atoms and their mixtures, the aliphat ~ ques chalnes may include 1339 ~ 2 ~

ether, thioether or hydroxymethylene groups and where p is between 1 and 10 inclusive, such that described in French patent 2,091,516;
- those corresponding to the formula:
R5 ~ 2H30 _ (CH20 ~) ~ q H

in which R5 denotes an alkyl radical, nyle or alkylaryl and q is a statistical value between 1 and 10 inclusive as described in French patent ~ 1,477,048;
- or those corresponding to the formula:
R6-coNH-cH2-cH2o-cH2-cH2-o (CH2-CHOH-CH2-O ~ H
in which R6 denotes a radical or a mixture linear or branched aliphatic radicals, saturated or unsaturated which may include one or more hydroxyl group (s), having between 8 and 30 carbon atoms, of natural origin or synthetic, r represents an integer or decimal from 1 to 5 and denotes the average degree of condensation, as described in French patent 2,328,763.
Non-ionic emuls ~ ons are made mainly a mixture of oil and / or alcohol fatty, or polyethoxylated or polyglycerolated alcohols such as stearyl or cetylstearyl alcohols polyethoxylated.
Anionic emulsions consist of preferably.tc from stecn2tes of amines.
The compositions according to the present invention may contain7 in addition to the components sea, mentioned above, r. ~ redie.ts classically used, especially in make-up compositions ge, and chosen by ~ i the ~ douciss2rts, the conserva-teurs, sequestrants, perfumes, shoulders}
health, oils, silicones, 133972 ~

cohesion, polymers as well as alkali agents linisers or acidifiers usually used in the cosmetic field.
The thickeners that can be used can be natural or synthetic. Among the thick-natural health, we can cite gums of various kinds such as gum arabic, guar or of carob. Among the synthetic thickeners, we can cite cellulose dorivates such as hy-droxyethylcellulose, carboxymethylcellulose, starch derivatives, cellulose ethers derivatives having quaternary ammonium groups, the poly-cationic saccharides, salts of acrylic polymers liques or ~ ethacryliques, polyenes or poly-siloxanes.
You can also get a thickener mixtures of polyethylene glycol and polyethylene stearate and / or polyethylene distearate-glycol or by a mixture of phosphoric esters and fatty amides.
The compositions according to the invention also generally contain elements considered as a cosmetically acceptable support, a solvent or a mixture of aqueous or anhydrous solvents.
The present invention also relates to a process for manufacturing a composition according to the invention consisting in associating a cosmetic support t_QUs ~ ent ccre ~ t2 ~ 1e C ur, e wax ay-nt un p__nt between 60 and 110 ~ C and a ~ Iydro-Ay2r! t kérat-ne lysGt ur, average weight including 50.00C and 200,000, the weight ratio d- the qucntity of keratin hydrolyzate ~ ise er.oe_ ~; re a la quGn-r J r - of wax (sj setting in c) eu ~ 7re being c ~ '~ rs between û.005 and 0.5.
The invention also for ohJet a J5 eyelash makeup process using 133972x a composition as defined above.
To better understand the object of the invention, we will describe below, by way of purely illustrative and nonlimiting examples, several modes of implementation.
In the examples given below, we uses a keratin hydrolyzate, sold by the CRODA CHEMICALS LTD under the name "KERASOL", having an average molecular weight of 100,000 and having the following composition by weight%.
- Isoleucine ................................. 4.9 - Leucine .................................... 10.6 - Lysine ..................................... 5.5 - Methionine ................................. 1.5 - Cystine .................................... 2,0 - Phenylalanine .............................. 3.9 - Threonine .................................. 4.8 - Tyrosine ................................... 1.4 - Valine ..................................... 5.2 - Arginine ................................... 7.6 - Histidine .................................. 3.8 - Alanine .................................... 4.2 - Aspartic acid ........................... 9.1 - Glutamic acid ........................... 11, 4 - Wisteria .................................... 3.3 - Proline .................................... 2.4 - Serine .......... ...................... 8.3 It is used for lor ~ .C sclutiGn contains 14% protein hydrolysGt, 15 ~ of propylene glycol, 3% G2 N2Cl and 67 ~~ of e ~ u and have a pH of 5-7.

13 ~ 9725 We prepare the composition of mascara for-mulated as follows:
- Carnauba wax ........................... 5 g - Candelilla wax ......................... 5 g - Ethyl alcohol ........................... 3 g - Montmorillonite mQdified with a organic substance ........................ 4 g - Keratin hydrolyzate (counted in dry weight) ............................... 0.3 g - Talc ....................................... 10 g - Black iron oxide .......................... 10 g - Isoparaffin ................. qs ....... 100 g The procedure is as follows:
The waxes are heated to 80 ~ C. We add talc and pigments. We then incorporate the montmorillonite which has been modified with a substance organic and part of isoparaffin. At about 40 ~ Ct we introduce the keratin hydrolyzate, alcohol ethyl and the rest of the isoparaffin. We pass all with the grinder.

133972 ~

This mascara leads, in a time of application very fast cation, good makeup by cladding eyelashes and increase in their length.
Examples 2 to 7 below relate to mascara compositions in emulsion form.
These mascaras are ready to use. Operation mode general is as follows:
We melt the waxes. We incorporate pigments. The aqueous phase containing, depending on the case, the gums and / or hydroxyethylcel-lulose and keratin hydrolyzate at the same temperature ~ -ture as the waxy phase. We mix the two phases and shake vigorously.
The mascaras thus obtained, including the formulas tions are given below, require time relatively short and lead however good makeup.

We prepare the mascara composition formulated as follows:
- Triethanolamine stearate ...... ...... 15 g - Beeswax ............................. 8 g - Paraffin ................................... 3 g - Rosin ................................... 2 g - Ozokerite ................................... 10 g - Propyl parahydroxybenzoate .............. 0.20g - Parahy ~ roxybe., Methyl zocte ... ...... 0.20g - Gum arabic ..... ................... 0.50g - Keratin keratin (account by dry weight) ..... ............... 0 "5g - Black iron oxide .. ... ................ 5 g - Alu ~ ir polysulphide, Gsilicate ...... 5 g - Water. .......... ....... qsp ............ lQO g 13397 ~

We prepare the mascara composition formulated as follows:
- 2-amino-2 methyl stearate propanol-1 .................................... 25 g - Candelilla wax ............................ 5 g - Beeswax ............................... 8 g - Methyl parahydroxybenzoate .... 0.15 g - Parahydroxybenzoate from ~ ropyle ................ 0.15 g - Carob gum .............................. 3 g - Xanthan gum ............................. 3 g - Terrine hydrolyzate (counted dry weight) ............................... 0.08 ~
- Black iron oxide ............................. 8 g - Water ................ .... qsp .............. 100 g We prepare the mascara composition formulated as follows:
- Triethanolamine stearate ................... 20 g - Microcrystalline wax ......................... 5 g - Carnauba wax .............................. 10 g - Beeswax ............................... 3 g - Imidazolidinyl urea ........................... 0.30g - Propyl parahydroxybenzoate ................ 0.15g - tragacanth gum ............................... 5 g - Keratin hydrolyzate (counted dry weight) ... .............. 0.60g - Black iron oxide ............................. 5 g - Water ................ ...... qs ............ 100 g 30EXE ~: PLE 5 We prepare 12 CCmpositlGn of mcscara fcrmulée c ~ mme follows:
- triethanolamine c tezrate ................... 15 g - Cafidclilla wax .... ..... .. ~ g - Carnzuba wax ....... 10 g - ~ ydrcxyéthylcellulGse. .. 0.9g ~ q 2 ~
- Keratin hydrolyzate (counted by dry weight) ............................... 0.75g - Black iron oxide ............................. 8 g - Methyl parahydroxybenzoate ................ 0.15 g - Propyl parahydroxybenzoate ................ 0.15g - Water .................. qs ................ 100 g We prepare the mascara composition formulated as follows:
- Triethanolamine stearate ................... 10 g - Candelilla wax ............................ 15 g - Beeswax ............................... 17 g - Xanthan gum ............................. 1 g - Keratin hydrolyzate (counted by dry weight) ............................... 0.15g - Black iron oxide ............................. 5 g - Aluminosilicate polysulfide (ultramarine blue) ............................... 4 g - Curator .................................. q ~ s.
- Water ....................... qsp ........... 100 g We prepare the mascara composition formulated as follows:
- Triethanolamine stearate ................... 10 g - Carnauba wax ... ............... 8 g - Beeswax ............................... 8 g - Keratin hydrolyzate (counted in dry weight) .... ~ g - Black iron oxide ............................. 5 g - Alumirlosllicate polysulfide ... .. 4 g - Curator .................................. q. s.
- Water .......... ........... qs .............. 1CO g We prepare a mascara ar,: ~ ydre en pain with the following formulation:

13 ~ 972 ~

- Triethanolamine stearate .................. 25 g - Beeswax .............................. 6 g - Microcrystalline wax ........................ 22 g - Glycerides of saturated fatty acids ............. 11 g - Methyl rahydroxybenzoate .............. 0.15 g - Propyl parahydroxybenzoate ............... 0.15 g - Gum arabic ............................... 5.70 g - Keratin hydrolyzate (counted dry extract) .............................. 0.25 g - Red iron oxide ........................... 5 g - Black iron oxide ............................ 5 g The procedure is as follows:
We melt the waxes. We add the pigments. We incorporate gum arabic and hy-keratin drolysate. We go to the hot shredder fante. The remaining ingredients are introduced. We melt everything again and we sink in molds with gentle shaking.
You get good eyelash makeup in a very short application time.

Claims (20)

1 - Cosmetic makeup composition eyelashes comprising, in a cosmetic support acceptable, at least one wax with a melting point between 60 and 110 ° C, characterized by has at least one keratin hydrolyzate having an average molecular weight included between 50,000 and 200,000, the ratio in weight of the quantity of keratin hydrolyzate used to the quantity of wax (es) used being between 0.005 and 0.5. 2 - Composition according to claim 1, in which the keratin hydrolyzate has a weight molecular close to 100,000. 3 - Composition according to claim 1, in which the keratin hydrolyzate comes from hair, wool, hooves, horns, hair, bristles or feathers. 4 - Composition according to claim 1, in which the wax is an animal wax, a vegetable wax, mineral wax, synthetic wax, various fractions of natural waxes or their mixtures. 5 - Composition according to claim 4, including an animal wax chosen from the group formed by beeswax, lanolin wax and Chinese insect waxes. 6 - Composition according to claim 4, comprising a vegetable wax chosen from the group formed by the waxes of Carnauba, Candelilla, Ouricurry, cork fibers, cane waxes sugar and waxes from Japan. 7 - Composition according to claim 4, including a mineral wax chosen from the group formed by paraffins, microcrystalline waxes, Montan waxes and ozokerites. 8 - Composition according to claim 4, comprising a synthetic wax chosen from the group formed by polyethylene waxes, waxes obtained by synthesis of Fischer and Tropsch and waxy copolymers and their esters. 9 - Composition according to claim 1, comprising from 2 to 40% by weight of waxes relative to the total weight of the composition. 10- Composition according to claim 1, in which the weight ratio of the quantity of keratin hydrolyzate used is included between 0.05 and 5% by weight relative to the total weight of composition. 11 _ Composition according to claim 1, comprising at least one mineral pigment, a pigment organic or pearlescent pigment. 12 - Composition according to claim 11, comprising a mineral pigment taken from the group formed by titanium dioxide, possibly surface treated, black, yellow iron oxides, red and brown, manganese violet, blue overseas, chromium oxide, chromium hydrate, and ferric blue. 13 - Composition according to claim 11, comprising an organic pigment I selected from the group formed by pigments D and C red n ° 19, D and C red n ° 9, D and C red n ° 21, D and C orange n ° 4, D and C orange n ° 5, D and C red n ° 27, D and C
red n ° 13, D and C red n ° 7, D and C red n ° 6, D and C yellow n ° 5, D and C red n ° 36, D and C orange n ° 10, D and C yellow n ° 6, D and C red n ° 30, D and C

red n ° 3 and cochineal carmine lacquers. 14. Composition according to claim 11, comprising a pearly pigment chosen from the group formed by mica coated with titanium oxide, oxychloride of bismuth, titanium mica colored with iron oxides, titanium mica colored with ferric blue, oxide of chrome red n ° 3 and carmine lacquers from cochineal, titanium mica colored with an organic pigment chosen from the group formed by pigments D and C red n °
19, D and C red n ° 9, D and C red n ° 21, D and C orange n ° 4, D and C orange n ° 5, D and C red n ° 27, D and C red n ° 13, D
and C red n ° 7, D and C red n ° 6, D and C yellow n ° 5, D and C
red n ° 36, D and C orange n ° 10, D and C yellow n ° 6, D and C
red n ° 30, D and C red n ° 3 and carmine lacquers of cochineal, as well as colored bismuth oxychloride. 15. Composition according to claim 11, in which the pigment (s) is (or are) present at 3 to 20% by weight based on the total weight of the composition. 16. Composition according to claim 1, is in the form of a water-in-oil emulsion or oil-in-water, or in the form of a medium suspension solvent, or in anhydrous solid or pasty form. 17. Composition according to claim 1, containing at least one surfactant present in a proportion between 2 and 30% by weight relative to total weight of the composition. 18. Composition according to claim 1, containing at least one adjuvant chosen from among softeners, preservatives, sequestrants, perfumes, thickeners, oils, silicones, cohesion agents, polymers as well as agents alkalizing or acidifying. 19. Method of manufacturing a composition according to claim 1, according to which a cosmetically acceptable carrier to a wax having a point between 60 and 110 C and a hydrolyzate of keratin with an average molecular weight between 50,000 and 200,000, the weight ratio of the quantity keratin hydrolyzate used in the amount of wax (es) used being between 0.005 and 0.5. 20. Lash makeup method using creates a composition according to claim 1.