A beauty care product is provided. The beauty care product has a multi-layered barrier patch with a non-foamed first layer and a foamed second layer. The non-foamed first layer has a non-foamed polymer film with a first surface and a thickness from 5 microns to 250 microns. The foamed second layer has a foamed polymer film comprising a Mean Void Volume Percentage from 45% to 80% and a thickness of from 10 microns to 250 microns. The beauty care product also has a cosmetic composition with an effective amount of a skin active agent and a pressure sensitive adhesive.

A beauty care product is provided. The beauty care product has a multi-layered barrier patch with a non-foamed first layer and a foamed second layer. The non-foamed first layer has a non-foamed polymer film with a first surface and a thickness from 5 microns to 250 microns. The foamed second layer has a foamed polymer film comprising a Mean Void Volume Percentage from 45% to 80% and a thickness of from 10 microns to 250 microns. The beauty care product also has a cosmetic composition with an effective amount of a skin active agent and a pressure sensitive adhesive.

The invention relates to a cosmetic process for treating keratin fibers, preferably the hair, comprising at least the steps consisting in: a) applying to said keratin fibers a composition containing at least one substance chosen from fatty substances, non-silicone polymers and surfactants, b) applying a mechanical tension to said keratin fibers, and c) exposing said keratin fibers under mechanical tension to microwaves, at a pressure ranging from 50 000 to 250 000 Pa, in the presence of at least one solvent in vapor form on contact with the keratin fibers and without there being complete drying of the keratin fibers throughout the entire exposure to the microwaves, the solvent(s) in vapor form being entirely generated by evaporating at least one compound present, before emission of the microwaves, on contact with the keratin fibers, step a) taking place prior to step c).

Compositions for delivering materials, such as a biological material, sand, soil, metal, water, sea water, holy water, synthetic or biological polymers, cremated ash, ceramics, animal or plant tissue, or another physiologically compatible component having personal significance to an individual are described herein. The material(s) are encapsulated in an inert, non-bioerodible, hydrophobic, polymeric material. Methods of making microparticles encapsulating the personalizing substance and methods of use are also provided. The personalizing substance may be encapsulated in a polymeric non-bioerodible microparticle. The encapsulated personalizing substance may be combined with a carrier for delivery to an individual's skin. In some embodiments, the personalizing substance is added to a tattoo ink and incorporated in a tattoo created on an individual's skin. Following injection in the skin, the encapsulated material remains in the microparticles, and is not released over time.

A top coat nail polish formulation comprising a primary film-forming polymer, a secondary film-forming polymer, a plasticizer and a solvent yields a haze free film upon drying. The secondary film-forming polymer is prepared by a reaction methacrylic acid, alkylacrylate, and of methyl methacrylate, at selected ratios. The alkylacrylate comprises a branched alkyl group with 4 to 12 carbons, or a mixture of branched alkyl groups and optionally linear alkyl group. The haze of the dried top coat film depends on the presence of methacrylic acid, ratio of alkylacrylate to methyl methacrylate, the number of carbons in the alkyl group on the alkylacrylate, and the branching of the alkyl group.

An object of the present invention is to provide a hair styling composition formulated to make hair styling easy and to add wet-look shine to hair. The hair styling composition which achieves the above object contains (A) a thickener, (B) a hair fixative polymer and/or a liquid oil, (C) a wax particle dispersion, and (D) water. In the hair styling composition of the present invention, the wax particle dispersion (C) is preferably an Euphorbia Cerifera (Candelilla) wax particle dispersion or a beeswax particle dispersion, or preferably contains wax, at least one nonionic surfactant selected from the group consisting of polyoxyethylene cetyl ether and polyoxyethylene polyoxypropylene cetyl ether, and water.

Polysaccharide alkali swellable rheology modifiers include an emulsion polymer including at least one polysaccharide portion and at least one synthetic portion wherein the at least one synthetic portion is obtained from at least one anionic ethylenically unsaturated monomer, at least one nonionic ethylenically unsaturated monomer or a combination thereof, wherein at least one of the nonionic ethylenically unsaturated monomers is a hydrophobic ethylenically unsaturated monomer, as well as methods of making polysaccharide alkali swellable rheology modifiers.

The present disclosure relates to hair coloring compositions; and to methods for coloring hair using the compositions. The hair coloring compositions are substantially anhydrous and include: one or more colorant; one or more glycols; one or more monoalcohols having from 2 to 6 carbon atoms; one or more cationic surfactants; and one or more fatty compounds.

An applicator device includes a photo-active formulation assembly and a photo-dose assembly operably coupled to the photo-active formulation assembly. The photo-active formulation assembly includes a dispenser portion and one or more photo-activatable formulation reservoirs. The photo-active formulation assembly is operable to dispense a photo-activatable formulation from the one or more photo-activatable formulation reservoirs onto one or more regions of a biological surface. The photo-dose assembly includes at least one illuminator oriented to focus electromagnetic energy onto one or more focal regions of a biological surface. The focused electromagnetic energy is of a character and for a duration sufficient to photo-activate the photo-activatable formulation dispensed from the one or more photo-activatable formulation reservoirs.

The invention relates to a cosmetic process for treating keratin fibers, preferably the hair, comprising at least the steps consisting in: a) applying to said keratin fibers a composition containing at least one substance chosen from fatty substances, non-silicone polymers and surfactants, b) applying a mechanical tension to said keratin fibers, and c) exposing said keratin fibers under mechanical tension to microwaves, at a pressure ranging from 50 000 to 250 000 Pa, in the presence of at least one solvent in vapor form on contact with the keratin fibers and without there being complete drying of the keratin fibers throughout the entire exposure to the microwaves, the solvent(s) in vapor form being entirely generated by evaporating at least one compound present, before emission of the microwaves, on contact with the keratin fibers, step a) taking place prior to step c).