Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Cosmetic – antiperspirant – dentifrice
Reexamination Certificate
2002-01-07
2003-09-09
Lovering, Richard D. (Department: 1712)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Cosmetic, antiperspirant, dentifrice
C424S059000, C424S066000, C516S058000, C516S074000
Reexamination Certificate
active
06616936
ABSTRACT:
This application is an application under 35 U.S.C. Section 371 of International Application Number PCT/FR00/00343 filed on Feb. 11, 2000.
The present invention relates to compositions comprising an oil-in-water emulsion and an inorganic agent, said compositions having improved stability and being capable of being used in cosmetics.
Many inorganic agents are used in the cosmetics industry to provide beneficial properties.
As an example, to overcome perspiration problems, antiperspirants are used that generally contain an astringent aluminum salt. To protect the skin from the effects of the sun, cosmetic compositions also contain mineral sunscreens the properties of which are often better than those of organic filters. Cosmetic compositions, in particular makeup, can also comprise mineral pigments.
In general, compositions comprising these inorganic agents are compositions based on a water-in-oil emulsion, the organic phase of this emulsion being a silicone compound. In the presence of an inorganic agent, such emulsions are highly unstable. In order to keep the emulsion and the composition stable, then, a particular type of silicone emulsifying agent has to be added, generally a polysiloxane, more particularly dimethylpolysiloxane, which contains polyoxyalkylenated (polyoxyethylenated and/or polyoxypropylenated)-dimethicone copolyol-chains.
Such compositions thus require the use of very particular, expensive stabilisation systems.
Compositions based on an oil-in-water emulsion are generally more stable. However, such emulsions are produced from non-ionic surfactant type emulsifying agents, and such compounds are not compatible with the inorganic agents introduced into the composition. Such a mixture results in unstable cosmetic compositions with a high tack, which are difficult to apply.
The present invention aims to produce stable compositions comprising:
an oil-in-water emulsion; and
an inorganic agent.
The invention also aims to produce such compositions possessing low tack.
To this end, the invention concerns a composition comprising:
10% to 80% by weight of at least one emulsion in water of a straight chain polydimethylsiloxane with a viscosity in the range 1 to 5000 mPa.s at 25° C. the size of the particles in said emulsion being at most 1 &mgr;m;
1% to 50% by weight of at least one inorganic agent;
the complement to 100% by weight being an aqueous medium.
An essential feature of the composition of the invention is the nature of the organic phase of the oil-in-water emulsion.
This organic phase is a straight chain polydimethylsiloxane with a viscosity in the range 1 to 5000 mPa.s at 25° C. The viscosity of the polydimethylsiloxane is measured using a capillary viscometer using the method described in the Dow Coming Corporate Test Method CTM004, Jul. 20, 1970.
Preferably, a polydimethylsiloxane with a viscosity in the range 5 to 50 mPa.s. at 25° C. are used.
This type of straight chain polydimethylsiloxane is known as a dimethicone using the CTFA nomenclature. Such straight chain polydimethylsiloxanes are commercially available as the Viscasil® series from the General Electric Company, as the DC200® series from Dow Coming, and as the Mirasil DM® series from Rhodia Chimie.
Further, the size of the particles of the emulsion is at most 1 &mgr;m. The size of the particles of the emulsion is measured by laser diffraction granulometric analysis using a Horiba LA-910 granulometer.
Preferably, the size of the particles of the emulsion is in the range 0.2 to 0.8 &mgr;m.
This type of emulsion is prepared in a manner that is known to the skilled person.
A plurality of methods exist and have been described, in particular in the following references: “Understanding Emulsions (Randy Schueller and Perry Romanowski, Cosmetics & Toiletries Vol. 113, September 1998);” Formulating Cosmetic Emulsions (Dr Gillian M. Eccleston, Cosmetics & Toiletries Vol. 112, December 1997) and “Becher's Encyclopedia of Emulsion Technology” (P. Becher, Ed., M. Dekker 1983 and 1985).
More particularly, the amount of polydimethylsiloxane represents 20% to 80% by weight of the emulsion.
It should be noted that said emulsion may comprise at least one surfactant. Suitable surfactants will be described below.
Regarding the quantity of surfactant, this is more particularly in the range 0 to 10% by weight of the emulsion.
The aqueous phase of the emulsion is constituted by water, optionally combined with at least one monoalcohol or at least one polyalcohol, or mixtures thereof. Ethanol and propylene glycol are examples that can be cited.
Preferably, the emulsion represents 20% to 50% by weight of the composition, more preferably 20% to 30% by weight.
The inorganic agent in the composition of the invention can be selected from at least one of the following agents: inorganic pigments, mineral filters absorbing UVA and/or UVB radiation, and antiperspirants.
Inorganic pigments that can be cited include:
titanium dioxide (rutile or anatase), optionally surface treated, codified in the Color Index under reference number CI 77891;
black, red and brown iron oxides, codified under reference numbers CI 77499, CI 77492 and CI 77491;
manganese violet CI 77742;
ultramarine violet CI 77007;
ultramarine blue CI 77007;
chromium oxide CI 77288;
hydrated chromium oxide CI 77289;
ferric blue CI 77510.
Inorganic pigments that can be used include white pearl pigments such as micas coated with titanium oxide or bismuth oxide, or coloured pearl pigments such as mica-titanium coloured with iron oxides and mica-titanium coloured with an organic pigment.
The composition of the invention may comprise 5% to 50% by weight of at least one inorganic pigment, preferably 20% to 30%.
The compositions of the invention comprising inorganic pigments can be produced as face makeup compositions, foundations or lipsticks.
Mineral filters absorbing UVA and/or UVB radiation can be selected from metal oxides such as titanium dioxide (rutile or anatase, which may or may not be acicular), zinc oxide and iron oxide.
Preferably, titanium dioxide particles are used with a size in the range 20 to 200 nm surface coated with a mineral or organic coating. More particularly, aqueous dispersions of nanometric particles of titanium dioxide can be cited, with a size of less than 100 nm treated with a mineral based on silica and alumina. That type of dispersion has been described in International patents WO-A-97/30130 and WO-A-98/01392.
The composition of the invention can comprise 1% to 20% by weight of at least one mineral filter absorbing UVA and/or UVB radiation, preferably 2% to 8%.
Examples of compositions of the invention comprising mineral filters absorbing UVA and/or UVB radiation are sunscreens, day cream compositions or body lotions.
Antiperspirants act by reducing or even eliminating traces of perspiration on the skin surface. They have been described in “Woodruff's Ingredients and Formulary Handbook” (J. Woodruff—First Ed 1997 III p. 89).
The antiperspirant can be aluminum chloride, aluminum sulphate, aluminum hydrochloride, basic aluminum bromide, zirconium chloride, zirconium hydroxide, zirconium hydrochloride or complexes of the following types:
complexes of aluminum hydroxide, zirconium chloride and aluminum hydrochloride;
complexes of dihydroaluminium glycinate, zirconium chloride and/or hydrochloride and aluminum hydrochloride;
complexes of zirconium chloride and/or hydrochloride, aluminum hydrochloride and an amino acid such as glycine;
or mixtures of these products.
Preferred antiperspirant active principles are complexes of aluminum and zirconium hydrochlorides, for example: zirconium and aluminum trihydrochloride, zirconium and aluminum tetrahydrochloride and zirconium and aluminum pentahydrochloride, the names of which are defined in the CTFA nomenclature. These latter complexes can be combined with glycine.
The composition of the invention can comprise 5% to 40% by weight of at least one antiperspirant, preferably 15% to 25%.
In the case of an antiperspirant composition, it is preferably in the form of a roll-on applicator because of its l
Martin Nadia
Mercier Jean-Michel
Ricca Jean-Marc
Lovering Richard D.
Rhodia Chimie
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