US20140004057A1 - Sunscreen compositions containing an ultraviolet radiation-absorbing polyester - Google Patents

Sunscreen compositions containing an ultraviolet radiation-absorbing polyester Download PDF

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Publication number
US20140004057A1
US20140004057A1 US13/710,531 US201213710531A US2014004057A1 US 20140004057 A1 US20140004057 A1 US 20140004057A1 US 201213710531 A US201213710531 A US 201213710531A US 2014004057 A1 US2014004057 A1 US 2014004057A1
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United States
Prior art keywords
absorbing
composition
polyester
emulsifier
water
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Abandoned
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US13/710,531
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English (en)
Inventor
Susan Daly
Rocco Vincent Burgo
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Johnson and Johnson Consumer Inc
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Johnson and Johnson Consumer Companies LLC
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Filing date
Publication date
Priority claimed from US13/535,890 external-priority patent/US20140004054A1/en
Application filed by Johnson and Johnson Consumer Companies LLC filed Critical Johnson and Johnson Consumer Companies LLC
Priority to US13/710,531 priority Critical patent/US20140004057A1/en
Assigned to JOHNSON & JOHNSON CONSUMER COMPANIES, INC. reassignment JOHNSON & JOHNSON CONSUMER COMPANIES, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: INOLEX INVESTMENT CORPORATION
Assigned to INOLEX INVESTMENT CORPORATION reassignment INOLEX INVESTMENT CORPORATION ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BURGO, Rocco Vincent
Assigned to JOHNSON & JOHNSON CONSUMER COMPANIES, INC. reassignment JOHNSON & JOHNSON CONSUMER COMPANIES, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: DALY, SUSAN
Priority to EP13731623.8A priority patent/EP2866770B1/en
Priority to PCT/US2013/046316 priority patent/WO2014004169A2/en
Priority to KR1020157001810A priority patent/KR102099074B1/ko
Priority to BR112014032792A priority patent/BR112014032792A8/pt
Priority to AU2013280908A priority patent/AU2013280908B2/en
Priority to CA2877464A priority patent/CA2877464C/en
Priority to RU2015102579A priority patent/RU2648756C2/ru
Priority to CN201380034715.2A priority patent/CN104427965A/zh
Priority to IN10613DEN2014 priority patent/IN2014DN10613A/en
Priority to ES13731623.8T priority patent/ES2642887T3/es
Publication of US20140004057A1 publication Critical patent/US20140004057A1/en
Priority to US14/565,909 priority patent/US9592190B2/en
Abandoned legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/18Cosmetics or similar toiletry preparations characterised by the composition
    • A61K8/72Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds
    • A61K8/81Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds obtained by reactions involving only carbon-to-carbon unsaturated bonds
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/18Cosmetics or similar toiletry preparations characterised by the composition
    • A61K8/72Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds
    • A61K8/84Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds obtained by reactions otherwise than those involving only carbon-carbon unsaturated bonds
    • A61K8/85Polyesters
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/02Cosmetics or similar toiletry preparations characterised by special physical form
    • A61K8/04Dispersions; Emulsions
    • A61K8/06Emulsions
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/02Cosmetics or similar toiletry preparations characterised by special physical form
    • A61K8/04Dispersions; Emulsions
    • A61K8/06Emulsions
    • A61K8/062Oil-in-water emulsions
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/18Cosmetics or similar toiletry preparations characterised by the composition
    • A61K8/72Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds
    • A61K8/81Cosmetics or similar toiletry preparations characterised by the composition containing organic macromolecular compounds obtained by reactions involving only carbon-to-carbon unsaturated bonds
    • A61K8/817Compositions of homopolymers or copolymers of compounds having one or more unsaturated aliphatic radicals, each having only one carbon-to-carbon double bond, and at least one being terminated by a single or double bond to nitrogen or by a heterocyclic ring containing nitrogen; Compositions or derivatives of such polymers, e.g. vinylimidazol, vinylcaprolactame, allylamines (Polyquaternium 6)
    • A61K8/8182Copolymers of vinyl-pyrrolidones. Compositions of derivatives of such polymers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61QSPECIFIC USE OF COSMETICS OR SIMILAR TOILETRY PREPARATIONS
    • A61Q17/00Barrier preparations; Preparations brought into direct contact with the skin for affording protection against external influences, e.g. sunlight, X-rays or other harmful rays, corrosive materials, bacteria or insect stings
    • A61Q17/04Topical preparations for affording protection against sunlight or other radiation; Topical sun tanning preparations

Definitions

  • the present invention relates to topically-acceptable sunscreen compositions comprising UV-absorbing polyesters.
  • UV radiation such as from the sun
  • UV radiation can lead to the formation of light dermatoses and erythemas, as well as increase the risk of skin cancers, such as melanoma, and accelerate skin aging, such as loss of skin elasticity and wrinkling.
  • sunscreen compositions are commercially available with varying ability to shield the body from ultraviolet light.
  • numerous challenges still exist to provide sunscreen compositions that provide strong UV radiation protection, as well as resistance to washing off with water.
  • the challenge of creating water resistant sunscreens is further magnified if one imposes additional constraints on the sunscreen composition.
  • the present invention provides water-resistant, aesthetic sunscreen compositions that include a polymeric sunscreen compound (i.e., an ultraviolet radiation-absorbing polyester), and that are substantially free of non-polymeric UV-absorbing sunscreen agents.
  • compositions of the present invention include a discontinuous oil phase including a sunscreen agent that includes a UV-absorbing polyester in an amount effective to provide the composition with an SPF of about 10 or greater.
  • the oil phase is substantially homogenously distributed in a continuous water phase.
  • the UV-absorbing polyester is the polymerization reaction product of monomers comprising a UV-absorbing triazole, a diester, a diol and a tetrol polyol.
  • the composition includes an alkylated polyvinylpyrrolidone and an emulsifier selected from the group consisting of an anionic emulsifier and a non-ionic emulsifier.
  • the composition is substantially free of a non-polymeric UV-absorbing sunscreen agent and has an SPF of less than 2 in the absence of the UV-Absorbing polyester.
  • concentrations refer to concentrations by weight of the composition.
  • the term “essentially free of,” with respect to a class of ingredients refers to the particular ingredient(s) being present in a concentration less than is necessary for the particularly ingredient to be effective to provide the benefit or property for which it otherwise would be used, for example, about 1% or less, or about 0.5% or less.
  • UV-absorbing refers to a material or compound, e.g. a polymeric or non-polymeric sunscreen agent or a chemical moiety, which absorbs radiation in some portion of the ultraviolet spectrum (290 nm-400 nm), such as one having an extinction coefficient of at least about 1000 mol ⁇ 1 cm ⁇ 1 , for at least one wavelength within the above-defined ultraviolet spectrum. SPF values disclosed and claimed herein are determined using the in-vitro method described herein below.
  • Embodiments of the invention relate to compositions including a sunscreen agent that comprises a UV-absorbing polyester.
  • Such polyesters may be characterized as the polymerization reaction, e.g., esterification and/or transesterification, product of polyols, polyacids, polyanhydrides and/or polyesters.
  • polymer it is meant a polymer having multiple repeat units, each of the repeat units including an ester functional group, [—COO—].
  • the UV-absorbing polyester may include one or more “polyester backbone” portions, each polyester backbone portion having one or more ester functional groups that are derived by polymerization, as described herein.
  • “UV-absorbing polyester” may include residual free monomer which may be present resulting from the polymerization process.
  • the UV-absorbing polyester is complex.
  • complex it is meant that the UV-absorbing polyester includes terminal monofunctional compounds.
  • the UV-absorbing polyester is fully or partially terminated (by reaction) with monofunctional acids, anhydrides, monofunctional alcohols, monofunctional epoxides and/or monofunctional esters.
  • the UV-absorbing polyester is cross-linked.
  • cross-linked it is meant the UV-absorbing polyester has three or more terminal groups, each terminating a branch of the UV-absorbing polyester.
  • the UV-absorbing polyester may be made using one or more polyfunctional monomers that has at least three total functional groups, for example four functional groups.
  • the UV-absorbing polyester comprises a plurality of independent polyester moieties, each of which is terminated, or “capped”, by a UV-absorbing moiety.
  • UV-absorbing polyesters that may be used in compositions according to the present invention are described in United States patent application publication number US2011/0104078 A1.
  • UV-absorbing polyesters according to Scheme 6 of the application, and as further defined herein below, are useful in compositions of the present invention that are substantially free of non-polymeric UV-absorbing sunscreen agents.
  • the UV-absorbing polyester is UV-absorbing in that it includes UV-absorbing moieties, as discussed herein below, and therefore absorbs radiation in some portion of the ultraviolet spectrum (290 nm-400 nm), such as one having an extinction coefficient of about 1000 mol ⁇ 1 cm ⁇ 1 or more, for example greater than 10,000 or 100,000 or 1,000,000 mol ⁇ 1 cm ⁇ 1 , for at least one wavelength within the above-defined ultraviolet spectrum.
  • the UV-absorbing moiety may absorb predominantly in the UV-A portion (320 nm to 400 nm) or predominantly in the UV-B portion (290 nm to 320 nm) of the ultraviolet spectrum.
  • Particularly suitable examples UV-absorbing moieties include UV-absorbing triazoles.
  • UV-absorbing triazole it is meant a UV-absorbing moiety containing a five-membered heterocyclic ring with two carbon and three nitrogen atoms.
  • Typical UV-absorbing triazoles are benzotriazoles, which include the mentioned five-membered heterocyclic ring fused with a six-membered homocyclic aromatic ring.
  • Examples of UV-absorbing triazoles include, for example, compounds of the formula (II) or (III):
  • R 14 is an optional C 1 -C 18 alkyl or hydrogen
  • R 15 and R 22 independently, are optionally C 1 -C 18 alkyl that may be substituted with a phenyl group
  • R 21 is an optional functional group such as a C 1 -C 8 alkyl that may include an ester linkage containing a methyl group.
  • the UV-absorbing triazoles may be linked to the independent polyester moieties.
  • polyester moieties may each include or consist of n repeat units such as (IV) or (V) below:
  • R and R′ represent hydrocarbons such as alkyl, aryl, or aralkyl chains (saturated or unsaturated) having a carbon chain length ranging independently from C 1 -C 100 , such as C 4 -C 50 , such as C 6 -C 40 ;
  • n is the degree of polymerization of each of the independent polyester moieties and may range from 1 to about 20, such as from 1 to about 10, such as from 1 to about 5.
  • the total degree of polymerization, i.e., the sum of n for all polyester moieties in the UV-absorbing polyester, may range from 4 to about 25, such as from about 5 to about 20, such as from 5 to about 10.
  • the UV-absorbing polyester has a weight average molecular weight (Mw) of about 2,000 or more, such as about 4,000 or more, such as from about 4,000 to about 4,500, as determined by gel permeation chromatography using, for example, the following conditions and detection system.
  • Mw weight average molecular weight
  • a suitable liquid chromatography system is an Agilent 1100/1200 Series high performance liquid chromatography system, the hardware of the which includes 5 modules; a G1379A degasser, a Model G1310A isocratic pump, a 1110 automatic liquid sampler Model G1313A, a Model G1316A thermostatted column compartment, and a Model G1362A refractive index detector (RID).
  • the system is controlled using Agilent LC Chemstation software, Revision B.03.02.
  • the system is fitted with two Varian MesoPore GPC Columns, 300 ⁇ 7.5 mm, 3 um, multipore.
  • the samples are dissolved in ACS HPLC grade tetrahydrofuran (THF) to a concentration of approximately 1.0 mg/ml.
  • THF tetrahydrofuran
  • BHT butylated hydroxytoluene
  • the THF is filtered using 0.45 um Millipore filter before being used as the mobile phase solvent and sissolution solvent.
  • the solvent is degassed continuously by the vacuum degasser in the system.
  • the mobile phase flow rate is 1 mL/min.
  • the two column set is held at 45° C. in the column compartment.
  • the injection volume is 200 microliters.
  • the run time is thirty minutes.
  • Calibration of the GPC column is performed using 10 narrow molecular weight distribution polystyrene standards with molecular weights of 162, 580, 1110, 1530, 2340, 3790, 5120, 7210, 12830, and 19640 Daltons, respectively.
  • the standards may be purchased from Agilent-Varian. Each standard is injected and the molar mass is linearly regressed against elution volume to give the calibration line.
  • Molecular weight calculations for the polyesters are determined using Agilent GPC Addon Revision B.01.01, an add-on to Agilent Chemstation software. All results for inventive polyesters given in the units of Daltons, are relative to the polystyrene standards.
  • the UV-absorbing polyester in order to enhance water-resistance and spreadability, may have a low water-solubility.
  • water-solubility it is meant the maximum weight percentage of polyester (relative to polyester plus water) that can be placed into 100 grams deionized water and agitated so that a clear solution is obtained and remains visually homogeneous and transparent at ambient temperature for 24 hours.
  • the UV-absorbing polyester may have a water-solubility that is about 3% or less, such as about 1% or less.
  • the UV-absorbing polyesters suitable for use in compositions of the present invention may be synthesized by various means known to those skilled in the art, e.g., ring opening of a lactone (cyclic ester) that bears a UV-absorbing moiety; a condensation reaction of a UV-absorbing monomer having both acid and alcohol functionality (e.g., an “A-B” condensation reaction); condensing a polyol functional monomer and a polyacid functional monomer, one or both of which includes UV-absorbing moieties; and the like.
  • One particularly suitable process for making the UV-absorbing polyester is via a transesterification reaction, such as by reacting a polyfunctional hydroxyl, e.g., a tetrol polyol (a molecule having four alcohol functional groups), a diol, a di-carboxylic acid, and an ester-functional UV-absorbing monomer.
  • a polyfunctional hydroxyl e.g., a tetrol polyol (a molecule having four alcohol functional groups)
  • a diol e.g., a tetrol polyol and a di-carboxylic acid
  • an ester-functional UV-absorbing monomer e.g., three monomers, each absent a UV-absorbing moiety, e.g., a diol, a tetrol polyol and a di-carboxylic acid, may be reacted with a fourth monomer, e.g., a UV-absorbing triazole having an ester functionality, to produce a UV
  • the mole ratio of monomers may be selected such that the ratio of various monomer pairs is from about 0.25:1 to about 4:1.
  • the mole fraction of UV-absorbing monomer e.g., UV-absorbing triazole, relative to the total number of moles of all monomers used in the reaction (including the UV-absorbing monomer) is selected to be about 0.39 to about 0.60, or about 0.37 to about 0.42. According to another embodiment, this mole fraction is selected to be about 0.45 or less.
  • One particularly suitable UV-absorbing polyester is formed by a transesterification reaction of the following monomers: (1) dimerdiol, C 36 H 72 O, CAS No. 147853-32-5, which is a C 36 diol; (2) di-trimethylolpropane, C 12 H 26 O 5 , CAS No.
  • the sunscreen agent consists of, or consists essentially of, the UV-absorbing polyester, as defined herein.
  • the sunscreen agent may include additional UV-absorbing polymers, other than those UV-absorbing polyesters, as defined herein, and/or non-UV-absorbing, light-scattering particles.
  • Additional UV-absorbing polymers are molecules that can be represented as having one or more structural units that repeat periodically, e.g., at least twice, to generate the molecule, and may be UV-absorbing polyesters, other than those as defined and claimed in this specification.
  • Additional UV-absorbing polymers may have a molecular weight of greater than about 1500.
  • suitable additional UV-absorbing polymers include benzylidene malonate silicone, including those described in U.S. Pat. No. 6,193,959, to Bernasconi et al.
  • a particularly suitable benzylidene malonate includes “Parsol SLX,” commercially available from DSM (Royal DSM N.V.) of Heerlen, Netherlands.
  • Other suitable additional UV-absorbing polymers are disclosed in U.S. Pat. No. 6,962,692; U.S. Pat. No. 6,899,866; and/or U.S. Pat. No.
  • Non-UV-absorbing, light-scattering particles do not absorb in the UV spectrum, but may enhance SPF by scattering of the incident UV radiation.
  • Examples of non-UV-absorbing, light-scattering particles include solid particles having a dimension, e.g., average diameter, from about 0.1 micron to about 10 microns.
  • the non-UV-absorbing, light-scattering particle is a hollow particle comprising, or consisting essentially of, an organic polymer or a glass.
  • Suitable organic polymers include acrylic polymers, including acrylic/styrene copolymers, such as those known as SUNSPHERES, which are commercially available from Dow Chemical of Midland, Mich.
  • Suitable glasses include borosilicate glasses such as those described in published United States Patent Application US20050036961A1, entitled, “AESTHETICALLY AND SPF IMPROVED UV-SUNSCREENS COMPRISING GLASS MICROSPHERES”.
  • a composition suitable for topical/cosmetic use for application to the human body e.g., keratinaceous surfaces such as the skin, hair, lips, or nails
  • the composition includes one or more UV-absorbing polyester(s) described herein.
  • the concentration of the UV-absorbing polyester is sufficient to provide an SPF of about 10 or greater, particularly in the absence or substantial absence of other UV-absorbing polymers or non-polymeric UV-absorbing sunscreen agents as described herein.
  • the concentration of the UV-absorbing polyester may vary from about 5% to about 50% by weight, such as from about 7% to about 40% of the composition, such as from about 10% to about 25% of the composition.
  • the concentration of UV-absorbing polymer is about 10% or more, such as about 15% or more, such as about 25% or more of the composition. According to certain embodiments where the sunscreen agent consists essentially of the UV-absorbing polyester, the concentration of the UV-absorbing polyester may be about 15% or more.
  • compositions of the present invention may have an SPF of about 20 or greater.
  • compositions of the present invention are substantially free of non-polymeric UV-absorbing sunscreen agents.
  • substantially free of non-polymeric UV-absorbing sunscreen agents it is meant that the compositions do not contain non-polymeric UV-absorbing sunscreen agents in an amount effective to provide the compositions with an SPF of greater than 2 in the absence of the UV-absorbing polyesters, as determined via the in vitro method described herein below.
  • the compositions of the invention will contain about 1% or less, or about 0.5% or less, of such non-polymeric UV-absorbing sunscreen agents.
  • the compositions will have an SPF of less than 2 in the absence of the UV-absorbing polyester.
  • non-polymeric UV-absorbing sunscreen agents that the composition is substantially free of typically may be characterized as “organic” (include predominantly or only atoms selected from carbon, hydrogen, oxygen, and nitrogen) and having no definable repeat unit and typically having molecular weights that are about 600 daltons or less, such as about 500 daltons or less, such as less than 400 daltons.
  • Examples of such compounds include, but are not limited to: methoxycinnamate derivatives such as octyl methoxycinnamate and isoamyl methoxycinnamate; camphor derivatives such as 4-methyl benzylidene camphor, camphor benzalkonium methosulfate, and terephthalylidene dicamphor sulfonic acid; salicylate derivatives such as octyl salicylate, trolamine salicylate, and homosalate; sulfonic acid derivatives such as phenylbenzimidazole sulfonic acid; benzone derivatives such as dioxybenzone, sulisobenzone, and oxybenzone; benzoic acid derivatives such as aminobenzoic acid and octyldimethyl para-amino benzoic acid; octocrylene and other ⁇ , ⁇ -diphenylacryl
  • Non-polymeric UV-absorbing sunscreen agents that the composition is substantially free of may include ultraviolet-absorbing particles, such as certain inorganic oxides, including titanium dioxide, zinc oxide, and certain other transition metal oxides.
  • ultraviolet screening particles are typically solid particles having a diameter from about 0.1 micron to about 10 microns.
  • compositions of the present invention may be used for a variety of cosmetic uses, especially for protection of the skin from UV radiation.
  • the compositions thus, may be made into a wide variety of delivery forms. These forms include, but are not limited to, suspensions, dispersions, solutions, or coatings on water soluble or water-insoluble substrates (e.g., substrates such as organic or inorganic powders, fibers, or films). Suitable product forms include lotions, creams, gels, sticks, sprays, ointments, mousses, and compacts/powders.
  • the composition may be employed for various end-uses, such as recreation or daily-use sunscreens, moisturizers, cosmetics/make-up, cleansers/toners, anti-aging products, or combinations thereof.
  • the compositions of the present invention may be prepared using methodology that is well known by an artisan of ordinary skill in the field of cosmetics formulation.
  • compositions of the present invention include a continuous water phase in which a discontinuous oil phase that includes the UV-absorbing polyester is substantially homogeneously distributed.
  • the UV-absorbing polyester is dissolved, as opposed to being dispersed or suspended, within the oil phase.
  • the oil phase may, in turn, be stabilized within the water phase.
  • the oil phase may be such that it is present in discrete droplets or units having an average diameter of about one micron to about 1000 microns, such as from about 1 micron to about 100 microns.
  • the relative concentrations of water phase and oil phase may be varied.
  • the percentage by weight of water phase is from about 10% to about 90%, such as from about 40% to about 80%, such as from 50% to about 80%; wherein the balance is oil phase.
  • the percentage of water included in the compositions may range from about 20% to about 90%, such as from about 20% to about 80%, such as from about 30% to about 70%, such as from about 51% to about 80%, such as from about 51% to about 70%, such as from about 51% to about 60%.
  • the one or more UV-absorbing polyesters in the composition may be combined with a “cosmetically-acceptable topical carrier,” i.e., a carrier for topical use that is capable of having the other ingredients dispersed or dissolved therein, and possessing acceptable properties rendering it safe to use topically.
  • a “cosmetically-acceptable topical carrier” i.e., a carrier for topical use that is capable of having the other ingredients dispersed or dissolved therein, and possessing acceptable properties rendering it safe to use topically.
  • the composition may further include any of various functional ingredients known in the field of cosmetic chemistry, for example, emollients (including oils and waxes) as well as other ingredients commonly used in personal care compositions, such as humectants, thickeners, opacifiers, fragrances, dyes, solvents for the UV-absorbing polyester, among other functional ingredients.
  • Suitable examples of solvents for the UV-absorbing polyester include dicaprylyl carbonate available as CETIOL CC from Cognis Corporation of Ambler, Pa.
  • the composition is essentially free of volatile solvents; in particular, C 1 -C 4 alcohols such as ethanol and isopropanol.
  • composition may be essentially free of ingredients that would render the composition unsuitable for topical use.
  • composition may be essentially free of solvents such as volatile solvents, and, in particular, free of volatile organic solvents such as ketones, xylene, toluene, and the like.
  • compositions of the present invention include a film forming polymer.
  • the film-forming polymer may, when dissolved, emulsified, or dispersed in one or more diluents, permit a continuous or semi-continuous film to be formed when it is spread with a liquid vehicle onto a smooth substrate such as glass, and the liquid vehicle is allowed to evaporate.
  • the polymer may dry on the glass in a manner in which over the area which it is spread should be predominantly continuous, rather than forming a plurality of discrete, island-like structures.
  • the films formed by applying compositions on the skin according to embodiments of the invention described herein may be less than, on average, about 100 microns in thickness, such as less than about 50 microns.
  • film-forming polymers In contrast to polymeric UV-absorbing polymers, film-forming polymers generally do not absorb appreciable ultraviolet radiation and therefore do not meet the requirements for UV-absorbing polymers. However, by improving film formation, film-forming polymers may enhance the UV-protection (UV-A, UV-B or both) of the composition and/or enhance the waterproofing or water resistance of the composition.
  • UV-A, UV-B or both UV-protection
  • the film-forming polymer is an alkylated polyvinylpyrrolidone, such as a copolymer of vinylpyrrolidone and an ⁇ -olefin, such as a copolymer of vinylpyrrolidone and a long-chain (e.g., C 16 to C 30 ) ⁇ -olefin, e.g., GANEX V220, GANEX V216, GANEX WP660).
  • the film-forming polymer is formed from 20% vinyl pyrrolidone and 80% C 16 olefin (1-hexadecene), such as GANEX V216.
  • GANEX film-forming polymers are commercially available from ISP Specialty Chemicals (now Ashland Specialty Ingredients) of Wayne, N.J.
  • compositions of the present invention may include additional film-forming polymers, including natural polymers such as polysaccharides or proteins and synthetic polymers such as polyesters, polyacrylics, polyurethanes, vinyl polymers, polysulfonates, polyureas, polyoxazolines, and the like.
  • additional film-forming polymers include, for example, hydrogenated dimer dilinoleyl/dimethylcarbonate copolymer, available from Cognis Corporation of Ambler, Pa. as COSMEDIA DC; and water-dispersible polyesters, including sulfopolyesters such those commercially available from Eastman Chemical as EASTMAN AQ 38S.
  • the amount of film-forming polymer present in the composition may be from about 0.1% to about 5%, or from about 0.3% to about 3%, or from about 1% to about 2.5%.
  • Compositions of the present invention include one or more oil-in-water (O/W) emulsifiers selected from a group consisting of anionic emulsifiers and non-ionic emulsifiers.
  • O/W oil-in-water
  • emulsifier it is meant any of a variety of molecules that are suitable for emulsifying discrete oil-phase droplets in a continuous water phase.
  • low molecular weight emulsifiers it is meant emulsifiers having a molecular weight of about 2000 daltons or less, such as about 1000 daltons or less.
  • the O/W emulsifier may be capable of lowering the surface tension of pure deionized water to 45 dynes per centimeter when added to pure deionized water at a concentration of O/W emulsifier of 0.5% or less at room temperature.
  • the O/W emulsifier may have a hydrophile-lipophile balance (HLB) that is about 8 or more, such as about 10 or more.
  • HLB hydrophile-lipophile balance
  • the composition includes one or more anionic emulsifiers.
  • anionic emulsifiers are alkyl, aryl or alkylaryl, or acyl-modified versions of the following moieties: sulfates, ether sulfates, monoglyceryl ether sulfates, sulfonates, sulfosuccinates, ether sulfosuccinates, sulfosuccinamates, amidosulfosuccinates, carboxylates, amidoethercarboxylates, succinates, sarcosinates, amino acids, taurates, sulfoacetates, and phosphates.
  • Notable anionic emulsifiers are salts of esters of phosphoric acid and cetyl alcohol, such as potassium salts of mixtures of esters of phosphoric acid and cetyl alcohol (e.g., 1-hexadecanol, dihydrogen phosphate, monopotassium salt).
  • potassium cetyl phosphate, hydrogenated palm glycerides available as EMULSIPHOS from Symrise of Holzminden, Germany.
  • the concentration of the one or more anionic emulsifiers is from about 0.5% to about 6%, such as from about 1% to about 4%, such as from about 1% to about 2.5%.
  • the composition includes one or more non-ionic emulsifiers.
  • non-ionic emulsifiers include fatty amides, monoglycerides; sorbitan esters; polyoxyethylene derivatives of polyol esters; alkyl glucosides or polyglucosides; polyglyceryl esters; noncrosslinked silicone copolymers such as alkoxy or alkyl dimethicone copolyols, silicones having pendant hydrophilic moieties such as linear silicones having pendant polyether groups or polyglycerin groups; crosslinked elastomeric solid organopolysiloxanes comprising at least one hydrophilic moieties: polyethylene glycol, polypropylene glycol or polyglyceryl esters.
  • the non-ionic emulsifier has no alcohol functional groups. According to one embodiment of the invention, the non-ionic emulsifier has a molecular weight of about 10,000 daltons or less, such as about 7000 daltons or less.
  • the non-ionic surfactant is an ester of a fatty acid, such as various saturated or unsaturated, linear or branched, C 7 -C 22 unethoxylated, aliphatic acids.
  • the fatty acid may have from 14 to about 22 carbon atoms, such as from about 16 to about 18 carbon atoms.
  • the non-ionic emulsifier is a polyether, such as selected from a fatty acid ester of glycerol (such as glyceryl stearate), a polyethylene glycol fatty acid ester (such as PEG-100 Stearate), and combinations thereof.
  • oil-gelling polymers such as polymers that are capable of forming a gel with mineral oil at 25° C., such as when the oil-gelling polymer is mixed with mineral oil to a concentration of oil-gelling polymer that is between about of 0.25% to 2.0% by weight, the resulting mixture having a yield stress of about 5 pascals (Pa) or more, such as about 10 Pa or more, such as from about 10 Pa to about 1100 Pa.
  • Pa pascals
  • oil-gelling polymers are C 2 -C 4 alkylcellulose polymers, such as ethylcellulose, which is an ethyl ether of cellulose comprising a long-chain polymer consisting of anhydroglucose units joined together by acetal linkages.
  • ethylcellulose which is an ethyl ether of cellulose comprising a long-chain polymer consisting of anhydroglucose units joined together by acetal linkages.
  • Other examples of oil-gelling polymers are dibutyl ethylhexanoyl glutamide and dibutyl lauroyl glutamide.
  • the concentration of non-ionic emulsifer may also range from about 1% to about 10%, such as from about 2% to about 6%, such as from about 2% to about 4%.
  • the composition in addition to the emulsifier(s) discussed above, includes an additional emulsifier such as one or more of an amphoteric emulsifier, a cationic emulsifier, and/or a polymeric emulsifier.
  • an additional emulsifier such as one or more of an amphoteric emulsifier, a cationic emulsifier, and/or a polymeric emulsifier.
  • amphoteric emulsifier examples include alkyl betaines, amidoalkyl betaines, alkylamphoacetates; amidoalkyl sultaines; amphophosphates; phosphorylated imidazolines; carboxyalkyl alkyl polyamines; alkylimino-dipropionates; alkylamphoglycinates (mono or di); alkylamphoproprionates; N-alkyl ⁇ -aminoproprionic acids; and alkylpolyamino carboxylates.
  • Suitable chemical classes of cationic emulsifier include alkyl quaternaries, benzyl quaternaries, ester quaternaries, ethoxylated quaternaries, and alkyl amines.
  • suitable chemical classes of polymeric emulsifiers include copolymers based on acrylamidoalkyl sulfonic acid such as Aristoflex® AVC and Aristoflex® HMB by Clariant Corporation; and Granthix APP by Grant Industries, Inc.
  • the composition includes an emollient used for the prevention or relief of dryness and for the protection of the skin, as well as solubilizing the UV-absorbing polyester.
  • Suitable emollients include mineral oils, petrolatum, vegetable oils (e.g. triglycerides such as caprylic/capric triglyceride), waxes and other mixtures of fatty esters, including but not limited to esters of glycerol (e.g, isopropyl palmitate, isopropyl myristate), and silicone oils such as dimethicone.
  • mixtures of triglycerides (e.g. caprylic/capric triclycerides) and esters of glycols (e.g. isopropyl myristate) may be used to solubilize the UV-absorbing polyesters.
  • the composition includes a pigment suitable for providing color or hiding power.
  • the pigment may be one suitable for use in a color cosmetic product, including compositions for application to the hair, nails and/or skin, especially the face.
  • Color cosmetic compositions include, but are not limited to, foundations, concealers, primers, blush, mascara, eyeshadow, eyeliner, lipstick, nail polish and tinted moisturizers.
  • the pigment suitable for providing color or hiding power may be composed of iron oxides, including red and yellow iron oxides, titanium dioxide, ultramarine and chromium or chromium hydroxide colors, and mixtures thereof.
  • the pigment may be a lake pigment, e.g., an organic dye such as azo, indigoid, triphenylmethane, anthraquinone, and xanthine dyes that are designated as D&C and FD&C blues, browns, greens, oranges, reds, yellows, etc., precipitated onto inert binders such as insoluble salts.
  • lake pigments include Red #6, Red #7, Yellow #5 and Blue #1.
  • the pigment may be an interference pigment.
  • interference pigments include those containing mica substrates, bismuth oxycloride substrates, and silica substrates, for instance mica/bismuth oxychloride/iron oxide pigments commercially available as CHROMALITE pigments (BASF), titanium dioxide and/or iron oxides coated onto mica such as commercially available FLAMENCO pigments (BASF), mica/titanium dioxide/iron oxide pigments including commercially available KTZ pigments (Kobo products), CELLINI pearl pigments (BASF), and borosilicate-containing pigments such as REFLECKS pigments (BASF).
  • BASF commercially available FLAMENCO pigments
  • mica/titanium dioxide/iron oxide pigments including commercially available KTZ pigments (Kobo products), CELLINI pearl pigments (BASF), and borosilicate-containing pigments such as REFLECKS pigments (BASF).
  • compositions of the present invention may further comprise one or more other cosmetically active agent(s).
  • a “cosmetically active agent” is a compound that has a cosmetic or therapeutic effect on the skin, e.g., agents to treat wrinkles, acne, or to lighten the skin.
  • the cosmetically active agent will typically be present in the composition of the invention in an amount of from about 0.001% to about 20% by weight of the composition, e.g., about 0.01% to about 10% such as about 0.1% to about 5% by weight of the composition.
  • the composition has a pH that is from about 4.0 to about 8.0, such as from about 5.5 to about 7.0.
  • Water resistance may be measured using, for example, the In-Vitro Water Resistance Test, as set forth below.
  • a higher water resistance value of a composition tends to indicate more resistance of films of the composition to being removed by water, as compared to a composition having a lower water resistance value, which compositions tends to indicate less resistance of films of the composition to being removed by water.
  • the compositions of the present invention have surprisingly high water resistance values associated therewith.
  • the compositions have a Water Resistance Value (WRV) of about 65% or greater.
  • the compositions exhibit a WRV of about 80% or greater, such as about 90% or greater.
  • compositions of the present invention may be prepared using mixing and blending methodology that is well known by an artisan of ordinary skill.
  • a method of making a composition of the present invention includes preparing an oil phase by mixing at least the UV-absorbing polyester with optional oil-soluble or oil-miscible ingredients; and preparing a water phase, by mixing water and optional water-soluble or water-miscible ingredients.
  • the oil phase and the water phase may then be mixed in a manner sufficient to disperse the oil phase substantially homogeneously in the water phase such that the water phase is continuous and the oil phase discontinuous.
  • compositions of the present invention can be used by topically administering to a mammal, e.g., by the direct laying on, wiping or spreading of the composition on the skin or hair of a human.
  • a WRV of greater than 65% is considered to be particularly high, while a WRV of greater than 80% is even more desirable, and a WRV of greater than 90% is even more desirable.
  • the Water Resistance Test is conducted in the following manner. For each sample, the product is applied to PMMA plates and the initial SPF is measured according to the procedure, IN-VITRO SPF METHOD, described below. Initial SPF is measured with the labsphere instrumentation immediately following the 15 minute drying period, then a single sunscreen coated PMMA plate is attached to an 18 inch rod containing 4 propeller type mixing blades. The mixing rod+plate are immersed into a 3 L beaker of deionized water. The mixing blade is rotated at 35 rpm for exactly 20 minutes. The plate is removed from the water after 20 minutes and is allowed to air dry for 2 hours. The final SPF is read on the dry plate. The WRV is calculated by dividing the final SPF by the initial SPF and multiplying by 100. A fresh 3 L of deionized water is used for each plate.
  • Sun protection factor may be tested using the following IN-VITRO SPF TEST METHOD.
  • Test samples were prepared by providing a sample of polymer. Blends may also be tested by this method.
  • the polyester(s) can be tested without any additional additives; with a solvent system, or as a part of a personal care composition that may include solvent and/or additional ingredients.
  • Each sample is separately applied to a PMMA plate (available from Helioscience, Marseille, France) using an application density of 2 micro liters of solution per square centimeter of substrate, rubbing in into a uniform thin layer with the operator's finger, and allowing to dry.
  • the samples are allowed to dry for 15 minutes before measurement of absorbance using calibrated Labsphere® UV-1000S UV transmission analyzer (Labsphere, North Sutton, N.H., USA). The absorbance measures were used to calculate SPF and PFA indices (biological protection factor in the UVA based).
  • SPF and PFA may be calculated using methods known in the art—see equation (1) below for calculation of SPF:
  • compositions of the present invention include UV-absorbing polyesters, are substantially free of UV-screening compounds and further include an alkylated polyvinylpyrrolidone, as well as an anionic or non-ionic emulsifier. These inventive examples were prepared as shown in Table 1 and described below.
  • Inventive Example E1 was made by the following process: A water phase was prepared by adding water to a main vessel and heating to 70° C.-75° C. with mixing. PEMULEN TR-2 was added and mixed until dissolved. EUXYL PE9010 was added and mixed until dissolved. An oil phase was prepared by charging a vessel with CETIOL CC and mixing. At 60° C. the UV-absorbing polyester was added to the vessel. ARLACEL 165 and GANEX 216 were added to the oil phase and the mixture was heated to about 80° C. under continuous mixing, until uniform. The heated oil phase was added to the water phase with moderate shear. Moderate mixing was continued during cooling. At about 40° C., silica was gently added to the formulation.
  • Inventive Example E2 was made by the following process.
  • a water phase was prepared by adding water to a main vessel and heating to 75° C.-80° C. with mixing.
  • EUXYL PE9010 was added to the water phase.
  • An oil phase was prepared by charging a vessel with CETIOL CC and mixing. At 60° C. the UV-absorbing polyester was added.
  • ARLACEL 165 and GANEX 216 were added to the oil phase and the mixture was heated to about 75° C.-80° C. under continuous mixing, until uniform. The heated oil phase was added to the water phase with moderate shear. Moderate mixing was continued during cooling. At about 40° C., silica and Cosmedia ATH were gently added to the formulation.
  • Inventive Example E3 was made by the following process.
  • a water phase was prepared by adding water to a main vessel and heating to 75° C.-80° C. with mixing.
  • An oil phase was prepared by charging a vessel with CETIOL CC and mixing. At 60° C. the UV-absorbing polymer was added. EMULSIPHOS, CRODACOL C95, and GANEX 216 were added, and mixture was heated to about 75-80° C. under mixing. The hot oil phase was added to the water phase with moderate shear. Moderate mixing was continued during cooling. At about 40 C, silica was gently added to the formulation. Subsequently, EUXYL PE 9010 was mixed into the formulation.
  • CETIOL CC is Dicaprylyl Carbonate, available from Cognis, now BASF of Ludwigshafen, Germany.
  • EUXYL PE 9010 is phenoxyethanol and ethylhexyl glycerin, available from Tri-K Industries of Northvale, N.J.
  • GANEX V-216 is copolymer of vinylpyrrolidone and a C 16 ⁇ -olefin, available from ISP Specialty Chemicals (now Ashland Specialty Ingredients) of Wayne, N.J.
  • ARLACEL 165 veg is Glyceryl Stearate (and) PEG-100 Stearate, available from Croda of Edison, N.J.
  • CRODACOL C95 is a range of saturated fatty alcohols, available from Croda PLC of Edison, N.J.
  • EMULSIPHOS is Potassium Cetyl Phosphate and Hydrogenated Palm Glycerides, available from Symrise of Holzminden, Germany.
  • the UV-absorbing polyester was prepared from the following four monomers: (1) dimerdiol, C 36 H 72 O, CAS No. 147853-32-5 (referred to as (“DDO” in Table 1, below); (2) di-trimethylolpropane, C 12 H 26 O 5 , CAS No. 23235-61-2 (“DITMP”); (3) dimethyladipate, C 8 H 14 O 4 , CAS No 627-93-0 (“DMA”); and (4) benzenepropanoic acid, 3-(2h-benzotriazol-2-yl)-5-(1,1-dimethylethyl)-4-hydroxy-, methylester, C 20 H 23 N 3 O 3 , CAS No 84268-33-7 (“triazole”).
  • the mole ratio of the four monomers was: 3.4:2.1:4.0:6.0. Therefore, the UV-absorbing polyester had a mole fraction of UV-absorbing triazole of about 0.39. The weight average molecular weight was estimated to be about 4192.
  • the resulting UV-absorbing polyester was combined with a sufficient amount of dicaprylyl carbonate (CETIOL CC) to form a UV-absorbing polyester solution that was 80% by weight UV-absorbing polyester and 20% by weight dicaprylyl carbonate.
  • CETIOL CC dicaprylyl carbonate
  • EMULFREE CBG is a mixture of cocoate mono and di-esters of butylene glycol, isostearyl alcohol, and ethyl cellulose; available from Gattefosse of Paris, France Other ingredients are as described in other portions of this specification.
  • Comparative Examples C1-C2 were made by the following process: A water phase was prepared by adding water to a main vessel and heating to 70° C.-75° C. with mixing. EUXYL PE9010 (C2) or PHENONIP XB (C1) was added and mixed until dissolved. PEMULEN was added slowly and mixed rapidly until uniform. The water phase was partially neutralized before emulsification. An oil phase was prepared by charging a vessel with CETIOL CC and mixing. CRODACOL C95 was added and heat was applied. At 60° C. the UV-absorbing polyester was added.
  • the heated oil phase was added to the water phase with moderate shear.
  • the pH was adjusted to 6.5 with sodium hydroxide, and moderate mixing was continued for 5 minutes.
  • the mixture was allowed to slowly cool to room temperature at a reduced mixing speed.
  • Comparative Examples C3 and C4 were made by the following process: A water phase was prepared by adding water to a main vessel and heating to 75° C.-80° C. with mixing. Xanthan gum was added and mixed until dissolved. An oil phase was prepared by charging a vessel with CETIOL CC and mixing. At 60° C. the UV-absorbing polyester was added. ARLACEL 165 was added, and the mixture was heated to about 75° C.-80° C. under mixing, until uniform. The heated oil phase was added to the water phase with moderate shear. Moderate mixing was continued during cooling. At about 40° C., silica was gently added to the formulation. Subsequently, EUXYL PE 9010 was mixed into the formulation. Comparative Example C4 was identical to C3, except that 1% of COSMEDIA ATH was added at the end of the process.
  • Comparative Example C5 was made by the following process: A water phase was prepared by adding water to a main vessel and heating to 75° C.-80° C. with mixing. PEMULEN TR-2 was added and mixed until dissolved. An oil phase was prepared by charging a vessel with CETIOL CC and mixing. At 60° C. the UV-absorbing polyester was added. EMULSIPHOS and CRODACOL C95 were added, and the mixture was heated to about 75° C.-80° C. under mixing. The heated oil phase was added to the water phase with moderate shear. Moderate mixing was continued during cooling. At about 40 C, silica was gently added to the formulation. Subsequently, EUXYL PE 9010 was mixed into the formulation.
  • the WRVs of Inventive Examples E1-E3 and Comparative Example C 105 were determined using the Water Resistance Test as described above and the results reported in Table 3. The Water Resistance Tests were performed on three separate plates for all of the examples except C4 and C5, where testing was conducted only on a single PMMA plate.
  • the results of Water Resistance Test testing indicate that the addition of the alkylated polyvinylpyrrolidone film former (GANEX 216) significantly improved the water resistance of the compositions that included anionic or non-ionic emulsifiers.
  • the alkylated polyvinylpyrrolidone improved the water resistance of a composition with an anionic emulsifier, EMULSIFPHOS, as shown by comparing E3 and C5; or a composition with a non-ionic emulsifier, ARLACEL, as shown by comparing E1 and C3 or by comparing E2 and C4.
  • the alkylated polyvinylpyrrolidone film former did not result in an increase in the water resistance of the compositions that did not include either of these types of emulsifier (Examples C1 and C2). Furthermore, using a film former with a hydrogenated dimer dilinoleyl/dimethylcarbonate copolymer (COSMEDIA ATH) without the alkylated polyvinylpyrrolidone did not improve water resistance, as shown by comparing C4 and C3.
  • COSMEDIA ATH hydrogenated dimer dilinoleyl/dimethylcarbonate copolymer
  • sunscreen compositions that include a UV-absorbing polyester and that are substantially free of, or are free of conventional non-polymeric UV-absorbing sunscreen agents only provide sufficient water resistance when specific emulsifiers (non-ionic and anionic) are used in combination with a film former.

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IN10613DEN2014 IN2014DN10613A (zh) 2012-06-28 2013-06-18
CN201380034715.2A CN104427965A (zh) 2012-06-28 2013-06-18 包含紫外线辐射吸收性聚酯的防晒剂组合物
RU2015102579A RU2648756C2 (ru) 2012-06-28 2013-06-18 Солнцезащитные композиции, содержащие поглощающий ультрафиолетовое излучение сложный полиэфир
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