FR3031899A1 - PERMANENT AND EFFECTIVE TATTOO KIT - Google Patents

Abstract

The present invention relates to a permanent and erasable tattoo kit, comprising: a. a composition for preparing a tattoo ink suitable for introduction into the skin of a user, comprising a pigment (2), a support (1) associated with this pigment and forming with this pigment a carrier / pigment complex ( 3) of a size that prevents diffusion into a user's body when introduced into the skin of the user, b. a tattoo removal composition comprising a dissociation agent of the support in size fragments allowing diffusion into the body of a user, the dissociation agent being non-harmful and adapted for introduction into the skin.

Description

FIELD OF THE INVENTION The invention relates to the field of permanent tattoo inks and means for erasing them quickly, painlessly and non-invasively. State of the Art Tattooing is a technique of artificial pigmentation of the skin known for several millennia. Originally, tattoos were made with pigments of natural origin diluted in water or a suitable vehicle to form an ink. The tattoo ink is introduced into the skin using a sharp object a few millimeters deep. This ink then penetrates into the tissue and the pigments, due to their bulk, remain trapped at the interface between the dermis and the epidermis when the skin heals. Historically, tattoo inks are black, made of Chinese ink including magnetite crystals. There are also color inks obtained either from natural pigments or from synthetic pigments. Tattoos are made for example for aesthetic reasons, cultural, ornamental or restorative, especially in case of mastectomy. 30 Over time, exposure to light, renewal of the superficial layers of the skin, loosening of the skin with age, tattoos may lose their radiance or deform and become unsightly. Also, some tattooed people wish to have their tattoo removed, their tastes changed, or for their own reasons. Current techniques to erase a tattoo are poor. The most commonly used technique is the laser technique. This technique consists in illuminating the skin with a laser beam in order to explode the pigments. This particularly expensive technique is painful, requires a significant number of sessions in a professional and can leave significant scars, redness and marks. In addition, laser erasing may be inefficient, especially on dark tattoos or on solid areas of color. Other techniques include covering with another tattoo, surgical removal of the tattooed area, abrasion of the skin or salabrasion. These techniques are invasive and can have serious complications such as infections. These erasure difficulties are notably due to the size of the pigment particles trapped in the skin. The laser technique makes it possible to break up the pigment particles into particles of smaller sizes. However, this technique does not control the size of the particles generated. Most of the time, the laser erase technique leaves traces or unsightly veil at the place that was tattooed. EP1107724 proposes a vehicle for permanent tattoo ink, said vehicle for encapsulating the pigments to form a vehicle / pigment complex. This complex is dissociable by an exogenous source of energy. The dissociation within the skin by this exogenous source of energy allows the removal of tattoo pigments, and indeed, the erasure of the tattoo. Disadvantage of the prior art The solutions of the prior art, and particularly that of patent EP1107724, do not make it possible to overcome an exogenous energy source such as electrical, light, or laser energy. or other to clear the tattoo. These techniques remain invasive and aggressive for the skin of the user who may have sequelae, such as unsightly scars. In addition, these techniques require a renewal of the erasure operations for an unsatisfactory result because not optimal. In addition, the solutions of the prior art represent a constraint for the tattooed who wants to have his tattoo removed since he can not do it without the assistance of authorized or at least competent persons, which also represents a cost. considerable. Solution Provided by the Invention In order to overcome the drawbacks of the prior art, the invention proposes in its most general acceptance a permanent and erasable tattooing kit, comprising: a. a tattoo ink preparation composition suitable for introduction into the skin of a user, comprising a pigment, a carrier associated therewith and forming with said pigment a carrier / pigment complex of a size preventing diffusion into the body of a user when introduced into the skin of the user, 30 b. a tattoo removal composition comprising a dissociation agent of the support in size fragments allowing diffusion into the body of a user, the dissociation agent being non-harmful and adapted for introduction into the skin. The support may be degraded by conventional laser techniques or skin abrasion or salabrasion. Surprisingly, however, the inventors have found that the support can be chemically degraded, releasing the pigments, which can then be removed by diffusion into the tattooed body. The term "non-harmful" is understood to mean a concentration of dissociation agent which is not dangerous to health and has little or no adverse effect. The dissociation agent is physiologically acceptable. Preferably, the dissociation agent chemically degrades the support. It is understood that the kit comprises a dissociation agent capable of degrading the support. This dissociating agent may be incorporated into a composition, for example and without limitation a gel, a cream, an emulsion, said composition being intended for topical application, at the location of the tattoo to be erased. Advantageously, the support is formed of SiO4 functions repeated x times. Advantageously, the support is obtained by condensation of a compound comprising SiO4 functions. It is understood that the condensation of compounds including one or more SiO4 units forms meshes capable of trapping the tattoo pigments. According to one embodiment, the compound from which the support is obtained is diglyceroxisylan. The diglyceroxisylane or DGS has the formula C6H12O6Si and has a molecular weight of 208.24 g / mol. The DGS is obtained from tetramethoxysilane (TMOS) according to the following protocol: 5 to 5 g (0.032 mol) of tetramethoxysilane (TMOS) in a 250 ml flask are added 5.9 g (0.064 mol) of glycerol. The assembly is equipped with a refrigerant and the mixture is heated to 105 ° C with vigorous stirring in an oil bath for 5 hours and the temperature is brought to 110 ° C for 47 hours. The temperature is then raised to 120 ° C for 3 hours. The methanol is distilled and then the starting reagents and the remainder of methanol are removed by drying in a vacuum oven at 140 ° C for 2 hours. A white solid is obtained (6.3 g, n = 95%).

According to another embodiment, the compound from which the support is obtained is tetramethoxysilane. Tetramethoxysilane has the formula C4H12O4Si and has a molecular weight of 152.2 g / mol.

The dissociation agent of the invention belongs to the family of organic fluorides. Advantageously, the dissociation agent is olaflur. Alternatively, the dissociation agent is ammonium hexafluoruruminuminate.

According to another aspect, the invention relates to a composition for preparing a tattoo ink suitable for introduction into the skin of a user, comprising a pigment, a support associated with this pigment and forming with this pigment a complex carrier / pigment of a size preventing diffusion into the body of a user when introduced into the skin of the user, wherein the carrier is capable of being dissociated into support sized fragments allowing diffusion into the body of a user by a non-harmful agent and adapted to the introduction into the skin.

Advantageously, the support is formed of SiO4 functions repeated x times. The invention also relates to a tattooing ink suitable for introduction into the skin, comprising the preceding preparation composition, and a vehicle of this composition, which is physiologically acceptable. It will be understood that the physiologically acceptable vehicle is selected from the vehicles conventionally used in cosmetics and tattoo inks. At the doses used, the vehicle is harmless and is able to diffuse into the body during tattooing or afterwards. This vehicle is selected from water, glycerin, ethanol, propylene glycol, or any combination thereof as well as any vehicle known to those skilled in the art. The invention also relates to an agent for dissociating a pigment carrier from a tattoo ink preparation composition, the carrier being derived from a condensation of compounds comprising an SiO 4 type unit, dissociating agent being non-harmful and adapted for introduction into the skin and capable of dissociating the support into support fragments of sizes permitting diffusion into the body of a user for use in erasing an ink from tattoo. According to a preferred embodiment, the dissociation agent belongs to the family of organic fluorides.

Finally, the invention relates to a tattoo erasing composition comprising a dissociation agent.

The erasing composition may, without limitation, be in the form of a suspension, an emulsion, a cream or a gel. The erasing composition comprises the dissociation agent at a non-harmful concentration in a vehicle supplemented with dermatologically and physiologically acceptable additives. The dissociation agent is present in the erasing composition at a concentration of between 0.1 and 5% by weight. These additives may be, without limitation, penetrating agents, texturants, perfumes, dyes, preservatives, emulsifiers, etc. The erasing composition is packaged in a single dose or in a package compatible with the composition. The package protects the composition of the light and any other type of external aggression that could alter the properties of the composition. In one aspect, the invention relates to a method of making a tattoo ink preparation composition comprising a step of combining a pigment with a support formed of SiO4 functions repeated x times so as to form a carrier / pigment complex of a size which prevents diffusion into the body of a user when introduced into the skin of the user, the support being capable of being dissociated into support sized fragments allowing diffusion into the body of a user by a non-harmful agent and suitable for introduction into the skin.

The invention will be better understood in the light of the following nonlimiting description.

Description of the Figures Figure 1 shows a support mesh diagram. Figure 2 shows a carrier mesh diagram incorporating pigment particles. Figure 2 therefore shows a detail of a support / pigment complex. The permanent and erasable tattoo kit in the exemplary embodiment hereinafter comprises a ready-to-use tattoo ink and an erase cream comprising the dissociation agent. Preparation of the support 1 Diglyceroxysilane (DGS) support: The DGS is obtained from tetramethoxysilane (TMOS) according to the following protocol: 5 g (0.032 mol) of tetramethoxysilane (TMOS) in a 250 ml flask are added 5.9 g (0.064 mol) of glycerol. The assembly is equipped with a refrigerant and then the mixture is heated at 105 ° C. with vigorous stirring in an oil bath for 5 hours and then the temperature is raised to 110 ° C. for 47 hours. The temperature is then raised to 120 ° C for 3 hours. The methanol is distilled and then the starting reagents and the remainder of methanol are removed by drying in a vacuum oven at 140 ° C for 2 hours. A white solid is obtained (6.3 g, n = 95%).

Preparation of the pigment / support complex 3 DGS-based support 1: Synthesis of silica incorporating Fe304 from DGS (H2O / Si = 636) 0.4 mL (500 mg, 5.4x10 -3 mol) glycerol are mixed in a centrifuge tube with 2.5 mL of deionized water by stirring at room temperature for 5 min. 13.9 mg (6.0x10-5 mol, equivalent to a final concentration of 0.01 M) of Fe304, black pigment 2, are added after removal of the magnetic bar and the mixture is vortexed for 2 min at room temperature. room. 100 mg (4.8x10-4 mol) of DGS are dissolved in parallel in a pillbox with 3 mL of deionized water by stirring at room temperature and sonication. The DGS solution thus formed is added to that of Fe3O4 and then the mixture is vortexed for 5 minutes and heated at 50 ° C for 1 hour with regular manual stirring. The latter is then centrifuged after cooling to 3000 rpm (rpm) for 10 min. The aqueous phase is removed and the residue is rinsed thoroughly with deionized water. Finally, it is dried in a desiccator and then under vacuum at room temperature to result in the formation of a black solid (15 mg). The particle size obtained is on average 42 [μm.

TMOS-based support 1: Synthesis of silica with Fe3O4 from TMOS (H2O / Si / MeOH 20: 1: 4) 0.98 mL (1 g, 6.6x10-3 mol) of TMOS are mixed in one centrifuge tube with 2.3 mL of deionized water and 1 mL of methanol by vortexing at room temperature for 2 min. 10 mg (4.3x10-5 mol, equivalent to a final concentration of 0.01 M) of Fe304 are added and the mixture is vortexed for 2 min at room temperature. A few drops of concentrated sodium hydroxide solution (420 g / L) are added and the mixture is vortexed for about 15 minutes at room temperature. Caking takes place then and the gel is left to age overnight at room temperature. The latter is then rinsed with methanol and then with water and is filtered under vacuum with a sintered porosity 4. It is finally dried in a desiccator and then under vacuum at 50 ° C. to result in the formation of a black solid. (366 mg). Preparation of the tattoo ink The support / pigment complex obtained above is dispersed in a mass concentration which can vary between 1 or 2% (obtaining a gray ink) up to 98% (an intense black paste is obtained , paste that remains tattooable), in a vehicle. This dispersion vehicle is a mixture composed in mass percentages of 50% glycerol, 25% ethanol and 25% propylene glycol. The ink thus obtained is packaged in liquid and sterile form in a suitable packaging. This ink is directly usable by the tattoo artist with the classic instruments and well known tattoo artists. It is possible to dilute this ink with glycerin or any other diluent used by those skilled in the art in order to obtain gradients. Preparation of the erasing composition The erasing composition is formulated as a cream having the dissociating agent at a concentration of between 0.1 and 5%. The dissociation agent is ammonium hexafluoroaluminate dispersed in a cream comprising a thickener of the carbomer family, ethanol, a surfactant and purified water. In vitro test for degradation of the support by the dissociation agent The ink comprising the carrier / pigment complex dissolved in a vehicle is placed in the presence of the dissociation agent. 5 mg of material prepared from TMOS with Fe3O4 are dispersed in a beaker in 2 ml of deionized water by non-magnetic mechanical stirring at room temperature. 2 g (excess) ammonium hexafluoroaluminate with a purity of at least 98% are dissolved in parallel in a teflon beaker with 2 ml of deionized water by stirring at room temperature. The solution containing the silica is added to that of fluoride and the mixture is stirred at room temperature for 15 h. The latter is transferred to a centrifuge tube and then the teflon beaker is rinsed with deionized water and the contents added to the tube. The mixture is centrifuged at 3000 rpm for 10 min. The aqueous phase is removed and the residue is rinsed thoroughly with deionized water. Finally, it is dried under vacuum at room temperature. A mixture of black and white powders in the case of the use of ammonium hexafluoroaluminate is obtained. The white powder corresponds to the dissociated support which has released the pigment. Black powder is free pigments. The particle size of this pigment powder is low enough to diffuse into the skin, thus allowing the tattoo to fade. The dissociated support also forms particles of white powder of sufficiently small particle size to diffuse into the skin and thereby be removed.

Claims (16)

REVENDICATIONS1. Permanent and erasable tattoo kit, comprising: a. a composition for preparing a tattoo ink suitable for introduction into the skin of a user, comprising a pigment (2), a support (1) associated with this pigment and forming with this pigment a carrier / pigment complex ( 3) of a size that prevents diffusion into a user's body when introduced into the skin of the user, b. a tattoo removal composition comprising a dissociation agent of the support in size fragments allowing diffusion into the body of a user, the dissociation agent being non-harmful and adapted for introduction into the skin. 2. permanent and erasable tattooing kit according to claim 1 characterized in that the dissociation agent chemically degrades the support. 3. permanent and erasable tattooing kit according to any one of claims 1 or 2 characterized in that the support is formed of SiO4 functions repeated x times. 4. permanent and erasable tattooing kit according to any one of claims 1 to 3 characterized in that the support is obtained by condensation of a compound comprising SiO4 functions. 5. permanent and erasable tattoo kit according to any one of claims 1 to 4 characterized in that 3031899 13 the compound from which the support is obtained is diglyceroxisylan. Permanent and erasable tattoo kit according to any one of claims 1 to 5, characterized in that the compound from which the support is obtained is tetramethoxysilane. 7. permanent and erasable tattoo kit according to any one of claims 1 to 6 characterized in that the dissociating agent belongs to the family of organic fluorides. 8. permanent and erasable tattoo kit according to any one of claims 1 to 7, characterized in that the dissociation agent is olaflur. 9. permanent and erasable tattoo kit according to any one of claims 1 to 8, characterized in that the dissociation agent is ammonium hexafluoroaluminate. 10. A composition for preparing a tattoo ink suitable for introduction into the skin of a user, comprising a pigment, a carrier associated therewith and forming therewith a support / pigment complex of a size preventing diffusion into a user's body when introduced into the wearer's skin, wherein the carrier is likely to be dissociated into support sized fragments allowing diffusion into a user's body by an agent not harmful and suitable for introduction into the skin 3031899 14 11. Preparation composition of a tattoo ink according to claim 10 characterized in that the support is formed of SiO4 functions repeated x times. 5 12.A tattooing ink suitable for introduction into the skin, comprising the preparation composition according to one of claims 10 to 11, and a vehicle of this composition, physiologically acceptable. 10 A pigment carrier dissociation agent of a tattoo ink preparation composition, the support being derived from a condensation of compounds comprising an SiO 4 type unit, the dissociation agent being non-toxic and adapted for insertion into the skin and capable of dissociating the support into support sized fragments allowing diffusion into the body of a user for use in erasing a tattoo ink. 20 14. dissociation agent according to claim 13 characterized in that it belongs to the family of organic fluorides. 15.The erasure composition of a tattoo comprising a dissociation agent according to claims 13 and 14. 16.Process for manufacturing a tattoo ink preparation composition comprising a step of combining a pigment with a support formed of SiO4 functions repeated x times so as to form a carrier / pigment complex of a size preventing diffusion into the body of a user when introduced into the user's skin, the medium being capable of being dissociated into support sized fragments allowing for the diffusion into the body of a user by a non-harmful agent and suitable for introduction into the skin. 5