HAIR CARE COMPOSITIONS
The present invention relates to hair care compositions having conditioning properties, to methods of preparing such compositions and to methods of using such compositions to treat hair.
The term "hair care composition" as used herein includes so-called "hot oil" treatments, shampoos, conditioners, hair dyes, mousses, foams, gels, creams, waxes, masks, muds, styling sprays, lotions and rinses, all suitable for use on animals, preferably on humans, most preferably on the human head.
Hair care compositions having conditioning properties are well known in the art. For example, GB-A-1538768 (Alberto Culver) discloses a method of treating hair to improve its manageability, by contacting the hair with an aqueous composition comprising a water soluble quaternary ammonium compound (having one or two nitrogen atoms and at least one long chain alkyl group linked to one or both of the nitrogen atom[s]), and then shampooing the hair.
Unfortunately, many conditioning agents tend to promote free-radical reactions in the composition on storage or in use. Such reactions generate free-radicals, especially on exposure to sunlight and/or heat, and presence of high concentrations of free radicals is generally seen as undesirable in a toiletries composition and when used on the hair.
It has now surprisingly been found that certain types of conditioning agents have a greatly reduced tendency to promote free-radical reactions. Thus it has been found that by use of these conditioning agents in combination with an anti-free-radical agent, a composition can be provided which generates surprisingly low levels of free-radicals in use.
Free radicals, which are generated by factors such as UV radiation (present in sunlight), heat and/or by chemical reaction, are implicated in the process of damage to hair and fading of hair colour. The hair care compositions of the present invention have been shown to generate lower levels of free radicals than known hair care compositions. Therefore the hair care compositions of the present invention may be used to provide improved protection against the fading of natural or permanently coloured hair by sunlight and against damage to hair caused by exposure to factors such as sunlight, environmenta! and/or atmospheric pollution, heat from styling the hair and/or chemical treatment of the hair (for example curling, perming, straightening, dyeing and/or bleaching).
The hair care compositions of the present invention may comprise conventional hair care products and/or specific hair protection products which may be used for example as protective p re-treatments prior to heat or chemical treatment of the hair.
Therefore broadly according to the present invention there is provided a hair care composition comprising an anti-free-radical agent and a polymeric conditioning agent prepared from monomer entities selected from one or more of: acrylic acid, acrylamide dimethyldiallylammonium chloride and any mixtures thereof.
Suitably, the polymeric conditioning agent is a copolymer of acrylic acid and acrylamide monomer entities, and may comprise further comonomers.
Preferably the polymeric conditioning agent is a polymer of dimethyldiallylammonium chloride monomer entities, more preferably a copolymer further comprising acrylamide comonomer entities, most nreferably the copolymer still further comprising acrylic acid comonomer entities.
In one embodiment, the polymeric conditioning agent is a terpolymer comprising acrylic acid, acrylamide and dimethyldiallylammonium chloride
comonomers. Suitably these comonomers are present in weight ratios of about 1 to about 2 to about 1 respectively.
Particularly preferred polymeric conditioning agents are the polymers known under the following names assigned by the Cosmetic Toiletries and Fragrance Association (hereinafter known as CTFA designations): polyquaternium 39' which is a terpolymer of dimethyldiallylammonium chloride, acrylamide and acrylic acid comonomers (available commercially from
Chemviron Speciality Chemicals under the trade names 'Merquat Plus 3330'
-and Merquat Plus 3331'); 'polyquaternium 7' which is a copolymer of dimethyldiallylammonium chloride and acrylamide comonomers (available commercially from Chemviron Speciality Chemicals under the trade name
'Merquat S'); and 'polyquaternium 6' which is a homopolymer of dimethyldiallylammonium chloride monomers (available commercially from
Chemviron Speciality Chemicals under the trade name Merquat 100').
The polymeric conditioning agent may be present in the composition in an amount of from about 0.001 % to about 10% by weight, suitably from about 0.01 % to about 5% by weight, for example about 1 % by weight.
The anti-free-radical agent may be, for example ascorbic acid, vitamin E (tocopherol), lipacide LHL, phytoamine or herbal extract such as mimosa tenuiflora AA (available commercially from A & E Cannock), ginkgo biloba extract (available commercially from Indena), or birch extract. Preferred anti-free-radical agents are selected from one or more of: ascorbic acid, tocopherol and herbal extract. Particularly preferred anti-free- radical agents are selected from ginkgo biloba extract and birch extract. Ginkgo biloba extract may be produced by extracting the leaves of the ginkgo biloba tree with a suitable solvent. It is believed that the anti-free-radical activity of ginkgo biloba extract arises from the presence of flavonglycocides and/or terpenelactones which may be free-radical inhibitors. Birch extract may be produced by
extracting the dried leaves of Betula alba with a suitable solvent. It is believed that the anti-free radical activity of birch extract arises due to the presence of flavonoids such as hyperosid, quencitrosid and/or myricetol-3-digalactosid which may be free-radical inhibitors. A suitable birch extract comprises those available from Cosmetochem (U.K.) Ltd under the trade names "Super Herbasol Extract Birch" and "HP Herbasol Betula" and those available from Blagden Chemicals under the tradenames "Phytelene of Birch" and "Aqueous Spray Dried Birch".
The anti-free-radical agent may consist of active ingredients which are free-radical inhibitors or may also comprise suitable diluents and/or carriers (such as when the anti-free radical agent is some of the products mentioned herein). It will be appreciated that the anti-free-radical agent comprising the present invention is not limited to one or more of those anti-free-radical agents listed above and is not limited to those anti-free-radical agents comprising the ingredients described above.
Preferably, the anti-free-radical agent may be present in an amount of from about 0.01% to about 10% by weight, more preferably from about 0.05% to about 5% by weight, most preferably from about 0.15% to about 3.0% by weight of the composition.
To further reduce the generation of free-radicals by the UV radiation in sunlight, compositions of the present invention may further comprise any acceptable sunscreening agent (that is an agent which acts to absorb and/or reflect UV radiation present in sunlight) and which would be acceptable for use in a hair-care composition (for example suitable for use on the human head). Such sunscreening agents may comprise inorganic sunscreens (for example zinc oxide and/or titanium dioxide preferably of microfine (< 100 nm) particle size) and/or organic sunscreens (for example p-aminobenzoic acids, esters and derivatives, methoxycinnamate esters, benzophenones [such as
benzophenone-4 {available commercially under the trade name Uvinul MS40}]; dibenzoylmethanes and/or salicylate esters). The sunscreening agents may be present in an amount of from about 0.1 % to about 10% by weight of the composition.
Further components may be added to the hair-care composition as is well-known to those skilled in the art.
For example, preservatives may be added to the composition such as •2-bromo-2-nitropropane-1 ,3-diol (bronopol, which is available commercially under the trade name Myacide), benzyl alcohol, diazolidinyl urea, imidazolidinyl urea, methyl paraben, phenoxy ethanol, propyl paraben, sodium methyl paraben and sodium propyl paraben, suitably in an amount of from about 0.01 % to about 10% by weight of the composition.
Thickeners and viscosity modifying agents may be added to the composition, such as amine oxides, block polymers of ethylene oxide and propylene oxide (for example, those available from BASF Wyandotte under the trade name "Pluronic"), ethoxylated fatty alcohols, cellulosic derivatives such as hydroxypropylmethyl cellulose, salt (NaCl), phthalic acid amide, polyvinyl alcohols and fatty alcohols, suitably in an amount of from about 0.5% to about 10% by weight of the composition.
Sequestering agents may be added to the composition, such as ethylenediamine tetraacetic acid and salts thereof, suitably in an amount of from about 0.005% to about 0.5% by weight of the composition.
The composition may also include resins such as: octylacrylamide / acrylates / butylaminomethacrylate copolymer (available under the trade name Amphomer); ethyl ester of polyvinylmethyl (hereinafter known as PVM) / methylacrylate (hereinafter known as MA) copolymer (available under the trade
name Ultrahold 8A); vinyl acetate (hereinafter known as VA) / crotonates / vinyl neodecanate copolymer (available under the trade name Adhesive 28-2930 NAL); acrylates / acrylamide copolymer (available under the trade name Gantrez ES225); vinyl acetate / crotonic acid / vinyl propionate copolymer (available under the trade name Luviset CAP); polyvinylpropionate (hereinafter known as PVP) / VA / vinylpropionate copolymer (available under the trade name Laviskol VAP); octylacrylamide / acrylate copolymer (available under the trade names Versatyl 90 or Lovocryl 47); vinyl caprolactam / PVP / dimethylaminoethyl methacrylate copolymer (available under the trade name -(H20 LD EP-1); PVM / MA copolymer (available under the trade name Gantrez); and vinyl acetate / butyl maleate / isobornyl acrylate copolymer (available under the trade name Advantage CP). These resins may be present suitably in an amount of from about 0.1 % to about 10% by weight of the composition.
The composition may also include slip aids such as phenyl trimethicone, suitably in an amount of from about 0.1 % to about 10% by weight of the composition.
The composition may also include vitamins such as biotin, suitably in an amount of from about 0.01% to about 1.0% by weight of the composition.
The composition may also include waxes such as cocoa butter suitably in an amount of from about 1 % to about 99% by weight of the composition.
The composition may also include gelling agents such as PVM, MA, or a decadiene crosspolymer (available under the trade name Stabilez 06), suitably in an amount of from about 0.1 % to about 2% by weight of the composition.
The composition may also comprise suitable, cosmetically acceptable diluents, carriers and/or propellants such as dimethyl ether.
The composition may also include pearlising agents such as stearic monoethanolamide, suitably in an amount of from about 0.01 % to about 10% by weight of the composition.
Perfumes may be added suitably in an amount of from about 0.01 % to about 2% by weight of the composition, as may water soluble dyes such as tartrazine, suitably in an amount of from about a trace amount (such as 1 x 10"5 %) to about 0.1 % by weight of the composition.
The composition may also include pH adjusting agents such as sodium hydroxide, aminomethyl propanol, triethanolamine, suitably in an amount of from about 0.01 % to about 10% by weight of the composition.
The composition may be buffered by means well known in the art, for example by use of buffer systems comprising succinic acid, citric acid, lactic acid, and acceptable salts thereof, phosphoric acid, mono- or disodium phosphate and sodium carbonate. Suitably, the composition may have a pH between about 3 and about 10, preferably between about 4 and about 8.
The composition may also include an antidandruff agent such as salicylic acid or zinc pyrithione suitably in an amount of from about 0.1% to about 5% by weight of the composition.
Surfactants may be included, such as cosmetically acceptable salts of alkyl ether sulphates, alkyl and alkylamidoalkyl betaines, ethoxylated alcohols, polyethyleneglycol carboxylates, acceptable salts of alkyl sulphates (such as ammonium lauryl sulphate), sulphosuccinates (such as disodium laureth sulphosuccinate), amphoacetates and amphodiacetates (such as disodium cocoamphodiacetate), alkylpolyglucosides and alcohol sulphonates.
Broadly in accordance with a further aspect of the present invention there is provided a method of preparing a hair care composition comprising mixing in a suitable manner an anti-free radical agent with a polymeric conditioning agent prepared from monomer entities selected from one or more of: acrylic acid, acrylamide, dimethyldiallylammonium chloride and any mixtures thereof. Optionally any other suitable ingredients may be added such as those described herein. Preferred methods of preparation are described in the examples.
Broadly in accordance with a still further aspect of the present invention there is provided a method of treating hair (for example washing, conditioning and/or styling hair) by application of a composition as described herein.
The invention will be understood with reference to the non-limiting tests and formulation examples described hereinafter:
Free-Radical Test Results
A variety of hair-conditioning agents were tested for effects on free-radical generation by use of a standard hypoxanthine / xanthine oxidase enzyme-based assay.
The assay involves reduction of tetrazolium nitroblue (NBT) into formazan blue by superoxide anions produced by the action of xanthine oxidase on hypoxanthine. The formation of formazan from NBT creates a deep blue colour which is detectable by use of a spectrophotometer at 560 nm.
In the presence of oxygen free radical scavengers, the reaction is inhibited; the percentage inhibition indicates the efficiency potential of the "scavengers".
The rate of formation of formazan blue in relation to time is known to be substantially linear during the first five minutes of reaction, the reductive activity of superoxide radicals thus being directly proportional to the rate of change of absorbance over time. Hence any reduction in this rate of change in the presence of any test material is proportional to oxygen free radical scavenging activity.
Reagents were made up as follows:
1. Tris/HCI buffer, 0.05 M, pH 7.4
2. Solution of xanthine oxidase in Tris/HCI buffer (1 above) at an activity of 1.67 Units/ml.
3. Solution of hypoxanthine in Tris/HCI buffer (1 above) at 0.5 x 10'2 M.
4. Solution of tetrazolium nitroblue in Tris/HCI buffer (1 above) at 10"3 M.
Assays were carried out in disposable plastic cuvettes. In each case 0.5 ml of solution 3 (hydroxanthine solution), 0.1 ml of solution 4 (tetrazolium nitroblue solution) and sufficient of solution 1 (buffer solution) to produce a total of 3 ml, were placed in a cuvette. 0.1 ml of test solution (a 2% w/w solution of a conditioning agent) was added followed by 0.1 ml of solution 2 (xanthine oxidase solution) and the absorbance of the resulting mixture was immediately followed using a UV/visible spectrophotometer at 560 nm.
Negative controls (without presence of xanthine oxidase or conditioning agents) and positive controls (with xanthine oxidase but without conditioning agents) were also carried out in which the cuvettes were made up as described above with the addition of 2.4 ml (negative control) and 2.3 ml (positive control) of solution 1 respectively, so the total liquid in each cuvette was also 3 ml. The percentage inhibition of free radical activity for each conditioning agent was then calculated relative to these controls. Results are set out in Table 1.
As used herein the terms 'FRA' denotes free radical activity; '% change' denotes percentage change; '% w/v' denotes percentage ingredient (in grammes) per total volume of liquid or fluid composition (in ml); 'wrt' donates with respect to; '+ve control' denotes the positive control solution prepared as described above; and '-ve control' denotes the negative control solution prepared as described above.
Table 1
Conditioning Agent % change in
FRA wrt +ve control
Aqueous solution of cetyl trimethyl ammonium chloride +380.491 (available from Henkel under the trade name 'Dehyquart A') +3892
Dicetyldimonium chloride (available under the trade name 1 ,291 'Adogen 432ET)
Hydroxypropyl polypeptide C12 dimethylammonium chloride 2,221 (available from Croda Chemicals under the trade name 'Croquat L')
Polyquatemium-39 (available from Chemviron Speciality +221 Chemicals under the trade name 'Merquat Plus 3330') -302
Polyquaternium-6 (available from Chemviron Speciality 162 Chemicals under the trade name "Merquat 100')
Polyquaternium-7 (available from Calgon Chemicals under 5.52 the trade name 'Merquat S')
Footnotes
1 conditioning agent tested as 2% aqueous solution by weight of test substance
2 conditioning agent tested as 2% of test substance in Tris/HCI buffer
It will be noted that solutions comprising the conditioning agents 'Merquat 100', Merquat S' or 'Merquat Plus 3330' showed significantly lower free radical activity compared to the other conditioning agents tested.
The effect of the concentration of various anti-free-radical agents (birch extracts) on the rate of free-radical production (hereinafter referred to as FRP rate) is shown below in Table 2.
Table 2
Anti-free radical agent Concentration % change in FRP rate (Birch Extract) (% w/v) wrt +ve control
HP Herbasol Betula in 1% -58% Tris/HCI buffer 3% -69% 5% -81%
HP Herbasol Betula in 1 % -43% aqueous solution 3% -70% 5% -76%
Phytelene of Birch in 0.1 % -42% Tris/HCI buffer 0.2% -76% 0.3% -84% 0.4% -98.5% 0.5% -99%
Phtylene of Birch in 0.1% -57%
Tris/HCI buffer 0.2% -80%
(repeated) 0.3% -87%
Aqueous Spray Dried 0.1% -86% Birch in Tris/HCI buffer 0.2% -89% 0.3% -90%
Aqueous Spray Dried 0.025% -47%
Birch in Tris/HCI buffer 0.050% -71%
(repeated) 0.100% -85% 0.150% -91% 0.200% -92% 0.300% -92%
The hair care compositions of the present invention are illustrated by the following non-limiting formulation examples. The components of each formulation example are identified by their chemical name or their CTFA designation. Some of these components are available commercially under the tradenames or designations set out in Table 3.
Table 3
Tradename or designation Chemical name, description or CTFA designation
Adhesive 28-2930 NAL Vinyl acetate (VA) / croto nates / vinyl neodeocoπates copolymer
Aqueous Spray Dried Birch Dried maroon powder, flavonoid (available commercially from Blagen extract from birch leaves (Folia Chemicals) betulae)
Myacide Bronopol (2-bromo-2-nitropropane-1 ,3-diol)
Carbopol 940 carbomer 940
Cromophor RH40 PEG 40 hydrogenated castor oil
Cromophor RH60 PEG 60 hydrogenated castor oil
Euperlan PK 771 (available Mixture of sodium lauryl ether commercially from Henkel) sulphate (20%), ethylene glycol distearate (20%), cocoyl monoethanolamide (3.5%), laureth-10 (3.5%) and water
Gantrez ES 225 Acrylate / acylamide copolymer
HP Herbasol Betula (available Hydroglycolic extract (in resp. ratio commercially from Cosmetochem of 1 :2 drug to extract) of birch leaves UK Ltd) (Folia betulae)
Hydrosoy 2000 Hydrolysed soya protein (20%) in water
Jaguar Guar hydroxypropyl trimonium chloride
Merquat 100 (available commercially Polyquaternium-6 (40%) in water from Chemiviron Speciality Chemicals)
Table 3 (continued)
Formulation Example 1
A pearlised shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (70%) in water 6.38
Mixture of cocoamidopropyl betaine (30%), NaCl (5%) 2.85 and water
Polyquatemium-39 (10%) in water 0.5
Mixture of sodium lauryl ether sulphate (20%), ethylene 0.85 glycol distearate (20%), cocoyl monoethanolamide (3.5%), laureth-10 (3.5%) and water
2-Bromo-2-nitropropane-1 ,3-diol 0.02
Pure, vacuum-dried NaCl 2
Citric acid monohydrate qs
Birch extract (Phytelene of Birch) 0.3
Purified water to 100
The pearlised shampoo was prepared as follows. The water was slowly added to the sodium laureth-2 sulphate which was stirred. Once the water was mixed in, the remaining ingredients (except the birch extract), were added to the water phase whilst the water phase was stirred. The pH of the resulting mixture was adjusted to between 5 to 6 and then the birch extract was added whilst the mixture was stirred.
Formulation Example 2
Conditioners were prepared to the following composition:
Component Concentratιon(%w/v)
Cetyl alcohol 4
Mixture of cetyl alcohol (80%) and polyethylene glycol 2 (20) stearate (20%)
Hydroxyethyl cellulose 1
Polyquaternium-39 (10%) in water 1
Hydrolysed soya protein (20%) in water 0.1
Panthenol (75%) in water 0.05
2-Bromo-2-nιtropropane-1 ,3-diol 0.02
Citric acid 0.02
Birch extract (see below) as below
Purified water to 100
The conditioners were prepared as follows. The hydroxyethyl cellulose was dispersed in water at 50C to 60C using a high shear mixer. The pH of the resulting mixture was adjusted as required. The cetyl alcohol and the cetyl alcohol and polyethylene glycol (20) stearate mixture were heated to 60C and then added to the water phase whilst the water phase was mixed with a high shear mixer. The resulting mixture was cooled and the remaining ingredients were added.
Free Radical Test Results Examples 2( ) to 2(\v)
Birch extract (% w/v) used in each % change FRA wrt % change FRA wrt example +ve control Example 2 without birch extract
2(i) 0.15% Aqueous Spray Dried - 92 - 94 Birch
2(ii) 0.3% Phytelene of Birch - 91 - 94
2(iii) 3.0% HP Herbasol Betula - 92 - 94
2(iv) 3.0% SuDerHerbasol Extract - 87 - 91 Birch
Example 2 without birch extract + 36 -
Formulation Example 3
A basic shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (70%) in water 6.38
Mixture of cocoamidopropylbetaine (30%), salt (5%) and 3.84 water
Polyquaternium-39 (10%) in water 0.5
2-Bromo-2-nitropropane-1 ,3-diol 0.02
Pure, vacuum-dried NaCl 1.5
Citric acid monohydrate 0.2
Birch extract (Phytelene of Birch) 0.3
Purified water to 100
The shampoo was prepared by the method used to prepare formulation example 1.
Formulation Example 4
A leave-in conditioner was prepared to the following composition:
Component Concentration(%w/v)
D-panthenol (75%) in water 0.75
Polyquaternium-39 (10%) in water 10
Dimethicone propyl PG betaine 0.5
Perfume 0.1
PEG-40 hydrogenated castor oil 0.5
Methylchloroisothiazoline, methyiisothiazolinone, 0.08 magnesium nitrate and water
Birch extract (Phytelene of Birch) 0.3
Purified water to 100
The conditioner was prepared as follows. The perfume and the PEG-40 hydrogenated castor oil were stirred together and then the rest of the ingredients were added to this mixture which was stirred.
Free Radical Test Results for Example 4
% change FRA % change wrt +ve control FRA wrt standard
Example 4 +120% -68%
Standard commercially available leave-in +588% - conditioner
Formulation Example 5
A non-aerosol volumising gel spray, designated 'ultra hold', was prepared to the following composition:
The volumising gel spray was prepared as follows. The PVP/VA copolymer was dissolved in a mixture of the denaturated alcohol and the isopropyl alcohol whilst the alcohols were being stirred for 30 minutes. The phenyl dimethicone and birch extract were added to this mixture. The benzophenone-4, polyquaterium-6, panthenol and PVP were added to the water which was stirred to dissolve these ingredients. The resultant aqueous solution was added to the alcohol mixture whilst the alcohol mixture was stirred.
Free Radical Test Results for Example 5
% change FRA wrt +ve % change FRA wrt control Example 5 without polyquatemium 6 or
Birch Extract
Example 5 +54% -53%
Example 5 without +228% polyquatemium-6 or birch extract
Formulation Example 6
A non-aerosol hairspray, designated 'firm hold', was prepared to the following composition:
Component Concentration(%w/v)
Denaturated alcohol 86.81
Vinyl acetate / crotonates / vinyl neodecanoate 4.5 copolymer
Purified water BP 3.62
PVP / VA copolymer 0.95
Aminomethyl propanol 0.4
Panthenol 0.3
Rosin acrylate 0.2
Benzophenone-4 0.02
Polyquaternium-6 (40%) in water 0.05
Phenyl dimethicone 0.2
Birch extract (HP Herbasol Betula) 3
The hairspray was prepared as follows. The denaturated alcohol and aminomethyl propanol were stirred together. The remaining ingredients (except the vinyl acetate / crotonates / vinyl neodecanoate copolymer) were added to the ethanol mix and the resultant mixture was stirred. Finally the copolymer was added whilst the mixture was agitated.
Free Radical Test Results for Example 6
% change FRA wrt +ve % change FRA Example control 6 without polyquaternium-6 or birch extract
Example 6 -23% -75%
Example 6 without -16% polyquaternium-6 or Birch extract
Formulation Example 7
A spray for reviving hair curls was prepared to the following composition:
The spray was prepared as follows. The polyquaternium-4 was stirred into the water for 30 minutes. The remaining ingredients (except the birch extract and denaturated alcohol) were added. Then the denaturated alcohol and birch extract were added to the bulk mixture.
Free radical test results for Example 7
% change FRA wrt +ve control
Example 7 -79%
Formulation Example 8
A mousse designated 'firm hold' was prepared to the following composition:
The mousse was prepared as follows. The polyquaterium-4 was added to water and the mixture stirred rapidly for 30 minutes. The birch extract was pre-dissolved in water and then added to the water mixture. The remaining ingredients were added to this mixture with stirring.
Free radical test results for Example 8
% change FRA wrt +ve control
Example 8 -5%
Formulation Example 9
A hair gel was prepared to the following composition:
The hair gel was prepared as follows. The carbomer was dispersed in two thirds of the water with the disodium EDTA using a high shear mixer. The aminomethyl propanol was then added to this carbomer dispersion. The rest of the ingredients were added to the remaining water. This water phase mixture was then added to the carbomer dispersion.
Free Radical Test Results for Example 9
% change FRA wrt +ve control
Example 9 +126%
Standard commercially available hair gel +473%
Formulation Example 10
A dry mousse for perming and/or colour-treating hair was prepared to the following composition:
The mousse was prepared by the method used to prepare formulation example 8.
O 96/36312 PCΪYEP96/02135
- 24
Formulation Example 11
A hair texturising wax was prepared to the following composition:
Component Concentration(%w/v)
Petrolatum to 100
Hydrogenated coco-glycerides 5
Paraffin 5
Propylene glycol 1.05
PEG-60 hydrogenated castor oil 1
Purified water BP 0.05
Polyquatemium-39 (10%) in water 0.05
Birch extract (Phytelene of Birch) 0.3
Preservatives qs
The hair texturising wax was prepared as follows. The propylene glycol and birch extract were stirred together. The PEG-60 hydrogenated castor oil and polyquaternium-39 were stirred into the birch mixture. The remaining ingredients were melted together at 80C, then cooled to 60C and added to the birch mixture.
Formulation Example 12
A hair-finishing spray was prepared to the following composition:
Component Concentration(%w/v)
Denatured alcohol to 100
Butane 27
Isobutane 12
Propane 11
Acrylates / acrylamide copolymer 3
Purified water BP 2
Aminomethyl propanol 0.24
Phenyl dimethicone 0.2
Polyquaternium-6 (40%) in water 0.05
Propylene glycol 1.5
Birch extract (HP Herbasol Betula) 3
The finishing spray was prepared as follows. The alcohol and aminomethyl propanol were stirred together. The acrylates / acrylamide copolymer was slowly added to the alcohol mixture whilst the alcohol mixture was stirred. The phenyl dimethicone, propylene glycol and birch extract were stirred into the mixture and dissolved. The polyquatemium-6 and water were stirred together and added to the bulk mixture.
Formulation Example 13
A finishing spray, designated 'firm hold', was prepared to the following composition:
Component Concentration(%w/v)
Denatured alcohol to 100
Butane 16.2
Isobutane 7.2
Propane 6.6
VA / crotonates / vinyl propionate copolymer 3
Purified water BP 2
Aminomethyl propanol 0.25
Phenyl dimethicone 0.1
Polyquatemium-6 (40%) in water 0.05
Propylene glycol 1.5
Birch extract (HP Herbasol Betula) 3
The finishing spray was prepared by an analogous method to that used to prepare formulation example 12 in which the VA / crotonates / vinyl propionate copolymer replaces the acrylate / acrylamide copolymer.
Formulation Example 14
A pearled shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 20
Cocoamidopropyl betaine 3
Polyquaternium-39 (10%) in water 0.5
Sodium laureth, glycol distearate and cocoamide DEA 2
Viscosity adjuster qs
Birch extract (Phytelene of Birch) 0.3 pH adjuster qs
Perfume 0.4
Preservative qs
Purified water BP to 100
The pearled shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 15
A shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 20
Cocoamidopropyl betaine 4
Polyquatemium-39 (10%) in water 0.5
Birch extract (Phytelene of Birch) 0.3
Perfume 0.4
Preservative qs pH adjuster qs
Viscosity adjuster qs
Purified water BP to 100
The shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 16
A conditioning shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 30
Ammonium lauryl sulphate 20
Cocoamidopropyl betaine 10
Dimethicone propyl PG betaine 0.5
Guar hydroxypropyltrimonium chloride 0.2
Sodium laureth, glycol distearate and cocoamide DEA 2
Poiyquatemium-39 (10%) in water 2.5
Perfume qs
Birch extract (Phytelene of Birch) 0.3 pH adjuster qs
Preservatives qs
Purified water BP to 100
The conditioning shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 17
A conditioning shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 30
Ammonium lauryl sulphate 20
Cocoamidopropyl betaine 10
Dimethicone propyl PG betaine 0.5
Guar hydroxypropyltrimonium chloride 0.2
Sodium laureth, glycol distearate and cocoamide DEA 2
Polyquaternium-39 (10%) in water 2.5
Perfume 0.4
Birch extract (HP Herbasol Betula) 3 pH adjuster qs
Preservatives qs
Purified water BP to 100
The conditioning shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 18
A conditioning shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 30
Ammonium lauryl sulphate 20
Cocoamidopropyl betaine 10
Dimethicone propyl PG betaine 0.5
Guar hydroxypropyltrimonium chloride 0.2
Sodium laureth, glycol distearate and cocoamide DEA 2
Polyquaternium-39 (10%) in water 2.5
Perfume 0.4
Birch extract (Aqueous Spray Dried Birch) 0.15 pH adjuster qs
Preservatives qs
Purified water pH to 100
The conditioning shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 19
A hair mask with active mud was prepared to the following composition:
Component Concentration(%w/v)
Molecular sieve 35
Hydrogen vegetable protein 7
Cetearyl alcohol and PEG-23 stearate 5
Cetyl alcohol 3
Cocamide MEA 3
Stearamidopropyl dimethylamine 3
Polyquatemium-39 (10%) in water 1
Fragrance 0.5
Birch extract (Phytelene of Birch) 0.3
Propylene glycol to 100
The hair mask was prepared as follows. The cetearyl alcohol and PEG-23 stearate mixture, the cetyl alcohol and the propylene glycol were heated together to 70C. This mixture was mixed until homogenous and the rest of the ingredients added and homogenously mixed together. The composition was cooled whilst stirring.
Formulation Example 20
A hair serum was prepared to the following composition:
Component Concentration(%w/v)
Alcohol, t-butyl alcohol and denatonium benzoate 25
Polyquatemium-39 (10%) in water 1
Carbomer 940 0.6
Fragrance solubiliser qs
Fragrance 0.5
Birch extract (Phytelene of Birch) 0.2
Tetrasodium EDTA 0.04
2-Bromo-2-nitropropane-1 ,3-diol qs pH Adjuster qs
Purified water BP to 100
The hair serum was prepared as follows: The carbomer 940 was dispersed and hydrated in half of the water. The pH of 30% of the water was adjusted to about pH 5.2 and the birch extract was added. This birch mixture was added to a high shear mixer and mixed until uniform. The birch mixture was then added to the carbomer mixture. The fragrance solubiliser was warmed and mixed with the fragrance and this mixture was added to the bulk birch / carbomer mixture. When the resultant mixture was thoroughly mixed the remaining ingredients were added (the 2-bromo-2-nitropropane-1 ,3-diol was previously dissolved in purified water before adding to the mixture at this stage). The serum was made up to the required volume with purified water.
Formulation Example 21
A hair rebuilder was prepared to the following composition:
Component Concentration(%w/v)
Guar hydroxypropyltrimonium chloride 0.3
Alcohol, t-butyl alcohol and denatonium benzoate 25
Fragrance 0.5
Fragrance solubiliser qs
Birch extract (Phytelene of Birch) 0.2
Polyquaternium-39 (10%) in water 1
Panthenol and water 1 pH Adjuster qs
Purified water BP to 100
The hair rebuilder was prepared as follows. The guar hydroxypropyltrimonium chloride was dispersed in 20% of the purified water. The pH of 30% of the water was adjusted to about pH 5.2 and the birch extract was added. This birch mixture was then mixed in a high shear mixer until uniform. The birch mixture was then added to the guar hydroxypropyltrimonium chloride mixture. The fragrance solubilser was warmed and mixed with the fragrance. This mixture was added to the bulk birch mixture and the resulting mixture was stirred together until well mixed. The remaining ingredients were added and the rebuilder was made up to the required volume with purified water.
Formulation Example 22
A shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth sulphate and Water 14
Cocamide DEΞA and DEA-cocoate 1.5
Cocamidopropyl betaine and salt 8
Lauramide DEA 1.5
Birch extract (Phytelene of Birch) 0.2
Polyquaternium-39 (10%) in water 1
Panthenol and water 1
Fragrance 0.5
Preservative qs
Fragrance solubiliser 0.5
Fatty acid partial glyceride polyglycol ether and ester 4 pH adjuster qs
Viscosity adjuster qs
Purified water BP to 100
The shampoo was prepared by the same method used to prepare formulation example 1.
Formulation Example 23
A conditioner was prepared to the following composition:
Component Concentration(%w/v)
Birch extract (Phytelene of Birch) 0.2
Polyquaternium-39 (10%) in water 1
Hydrolysed vegetable protein 7
Stearamidopropyl dimethyiamine 0.5
Propylene glycol 0.5
Dicetyldimonium chloride, ethanol and water 3
Stearyl alcohol and ceteareth-20 1
Cetyl alcohol 3.5
Potassium chloride 0.3
Cyclomethicone 1.8
Perfume 0.3
2-Bromo-2-nitropropane-1 ,3-diol qs
Viscosity adjuster qs pH adjuster qs
Purified water BP to 100
The conditioner was prepared as follows. The birch extract was pre-dissolved in water and added to 80% of the water. The solution was mixed in a high shear mixer until uniform, and then heated to 80C. The cetyl alcohol and the stearyl alcohol and ceteareth-20 mix were heated to 80C and mixed together with the water phase using the high shear mixer. This mixture was cooled whilst being stirred and when the mixture temperature fell below 30C, the remaining ingredients were added. The product was made up to the required volume with purified water.
Formulation Example 24
A leave-in conditioner was prepared to the following composition:
Component Concentration(%w/v)
Guar hydroxypropyltrimonium chloride 0.3
Alcohol, t-butyl alcohol and denatomium benzoate 25
Fragrance solubiliser qs
Fragrance 0.5
Birch extract (Phytelene of Birch) 0.2
Polyquatemium-39 (10%) in water 1 pH adjuster qs
Purified water BP to 100
The conditioner was prepared as follows. The pH of 40% of the water was adjusted to between pH 3.0 and 3.5 and this pH adjusted water was then heated to between 60C and 70C. The birch extract was added to this heated water whilst being stirred rapidly and the stirring continued until the solution was clear. A further 40% of the water was added to this solution, followed by the guar hydroxypropyltrimonium chloride whilst the water was stirred rapidly for 15 minutes or until the solution became clear. The solution was cooled to below 30C and the remaining ingredients were added.
Formulation Example 25
A shampoo was prepared to the following composition:
Component Concentration(%w/v)
Sodium laureth-2 sulphate (27%) 20
Cocoamidopropyl betaine 4
Polyquaternium-7 (8%) in water 0.2
Birch extract (Phytelene of Birch) 0.3
Perfume 0.4
Viscosity adjuster qs pH adjuster qs
Preservative qs
Purified Water BP to 100
The shampoo was prepared by the method used to prepare formulation example 1.
Formulation Example 26
A hair gel was prepared to the following composition
Component Concentration(%w/v)
Purified water BP to 100
Polyvinylpropionate 3.5
Carbomer 1
Aminomethyl propanol 0.4
Dimethicone copolyol 0.2
PPG-2 Ceteareth-9 0.2
Panthenol 0.08
Disodium EDTA 0.05
Quaternium-15 0.05
Polyquatemium-7 (8%) in water 0.5
Benzophenone-4 0.02
Methylparaben 0
Propylparaben 0
Birch extract (Phytelene of Birch) 0.3
The hair gel was prepared by the method used to prepare formulation example 9.
Formulation Example 27
A conditioner was prepared to the following composition:
Component Concentration(%w/v)
Birch extract (Phytelene of birch) 0.2
Polyquatemium-7 (8%) in water 0.5
Stearamidopropyl dimethylamine 0.5
Propylene glycol 0.5
Dicetyldimonium chloride, and ethanol and water 3
Stearyl alcohol and ceteareth-20 1
Cetyl alcohol 3.25
Potassium chloride 0.3
Cyclomethicone 1.8
Perfume 0.3
Preservative qs pH adjuster qs
Purified water BP to 100
The conditioner was prepared by the same method used to prepare formulation example 23.
Formulation Example 28
Leave-in conditioners were prepared to the following composition:
Component Concentration(%w/v)
Panthenol (75%) in water 0.9
Denatured ethanol 25.33
Polyquaternium 39 (10%) in water 0.75
Octyl dimethyl p-aminobenzoate acetate 0.1
Propylene glycol 0.86
PEG-40 hydrogenated castor oil 0.25
2-Bromo-2-nitropropane-1 ,3-diol 0.02
Birch extract (see below) as below
Purified water BP to 100
The leave-in conditioners were prepared as follows. The pH of 40% of the water was adjusted to between 3.0 and 3.5, and this pH adjusted water was heated to between 60C and 70C. The birch extract was added to the heated stirred water, which was stirred until the mixture became clear. A further 40% of the water was added and the solution was cooled to below 35C when the remaining ingredients were added.
Free Radical Test Results for Examples 28(fl to 28(ifl
Birch extract (% w/v used in the % change FRA wrt % change FRA wrt example) +ve control Example 28 without birch extract
28(i) 3% HP Herbasol Betula - 65.5 - 86
28(H) 3% Super Herbasol Extract - 84.5 - 94 Birch
Example 28 without birch extract 143 -
Formulation Example 29
A conditioner was prepared to the following composition:
Component Concentration(%w/v)
Cetyl alcohol 4
Cetostearyl alcohol and PEG-20 stearate 2
Hydroxyethylcellulose 1
Polyquatemium-39 (10%) in water 1
D-panthenol (75%) 0.05
2-Bromo-2-nitropropane-1 ,3-diol 0.02
Methylchloroisothiazolinone, Methylisothiazolinone, 0.05 magnesium nitrate and water
Citric acid 0.02
Birch extract (Phytelene of Birch) 0.3
Perfume 0.3
Purified water BP to 100
The conditioner was prepared as follows. The hydroxyethylcellulose was hydrated in 80% of the water. The birch extract was pre-dissolved in water and added to the hydroxyethylcellulose mixture which was then mixed in a high shear mixer until uniform and then heated to 80C. The cetyl alcohol and the cetostearyl alcohol and PEG-20 stearate mix were heated to 80C and mixed together with the cellulose mixture using the high shear mixer. The resulting mixture was cooled whilst being stirred and when the mixture temperature fell below 30C the remaining ingredients were added. The product was made up to the required volume with purified water.
Free Radical Test Results for Example 29
% change FRA wrt +ve control
Example 29 -81%
Standard commercially available conditioner -12.5%