Provided is a method for improving fragrance persistence by applying a composition including, as active ingredients: oil; and non-ionic polymers having hydrophobic substituents at both termini thereof. In the composition of the presently claimed subject matter, the non-ionic polymers having hydrophobic substituents at both termini thereof form a flower micelle structure by capturing oil and a fragrance through the hydrophobic substituents, and thus can stably maintain the oil and fragrance and prevent fast volatilization of the fragrance, thereby improving fragrance persistence.

The present invention provides a topical composition for a nanobubble cosmetic with which functional properties required by various types of cosmetic products can be improved. The present invention is a topical composition for a nanobubble cosmetic to be used in a container equipped with a device mechanism for generating nanobubbles, said topical composition containing a polyoxypropylene diglyceryl ether and ethoxydiglycol, or containing hyaluronic acid or a salt thereof, or containing ethanol and menthol or a derivative thereof, or containing sorbitol and glycerin, or containing phytosteryl/octyldodecyl lauroyl glutamate, or containing glycereth-26, or containing hydrogenated lecithin and polysorbate 20, or containing ethanol and polysorbate 20.

A personal cleansing composition includes a surfactant system, wherein the surfactant system includes from 0.1% to 5% of a fatty acyl isethionate surfactant by weight of the composition; from 0.5% to 40% of a co-surfactant by weight of the composition; from 0.05% to 5% of a natural polysaccharide or a chemically modified natural polysaccharide by weight of the composition; wherein the personal cleansing composition includes a first and second phase, wherein the first phase is an isotropic and micellar surfactant phase; wherein the second phase is a polymer liquid crystalline phase; wherein the composition is free of alkyl sulfate and alkyl ether sulfate type of surfactants; wherein the composition exhibits a yield stress value τ.sub.y from 0.005 Pa to 3 Pa; and wherein the composition exhibits a flow viscosity from 3 Pa.Math.s to 100 Pa.Math.s at 25° C. at a shear rate of 1.5 s.sup.−1.

Compositions and methods of manufacture for an extended time-release fragrance comprising volatile organic compounds. A composition of the disclosure includes an effective amount of a volatile organic compound for providing a fragrance that can be sensed by a user and fractionated coconut oil comprising caprylic acid and capric acid.

The present disclosure discloses a skin penetration enhancing composition and a use thereof in preparation of a skin delivery formulation. The skin penetration enhancing composition comprises sponge spicules and nanoparticles. The nanoparticles comprise at least one of one or more drugs or one or more cosmetic active ingredients.

A method for producing a nonaqueous composition for external use on the skin including a strongly hydrophilic amphiphilic solid active ingredient-surfactant complex dissolved or dispersed in an oil phase, the method including the steps of: dissolving a surfactant in an oil phase to obtain a surfactant solution; mixing the obtained surfactant solution with a strongly hydrophilic amphiphilic solid active ingredient to obtain a suspension; and allowing the obtained suspension to stand still to obtain a transparent composition. Unlike conventional methods for preparing S/O formulations, the strongly hydrophilic amphiphilic solid active ingredient can be solubilized in an oil phase without the process of emulsification and freeze drying.

A cosmetic composition for make-up removal that provides aesthetically pleasing gliding application and is smudge resistant, the composition being provided in the form of a water-based micellar make-up removal composition that includes a blend of surfactants that includes one surfactant that has an HLB that is in the range from about 8 to about 16 and at least one surfactant that has an HLB that is greater than 16, and one or more powdered polysaccharides provided as essentially water-insoluble particles. In some embodiments the surfactant with an HLB greater than 16 is amphoteric. The composition can also include one or more of each or a combination of inorganic mineral powders, humectants, silicone-based defoaming agents, preservatives, and other cosmetically acceptable additives.

Provided herein are iron chelating compounds, compositions containing such compounds and methods of using the compounds in treating various aesthetic skin conditions. The iron chelating compositions may be administered topically or orally. Treating the aesthetic skin conditions includes preventing onset or delaying progression of the aesthetic skin condition.

A rinse off hair treatment composition comprising; a. a pressure sensitive adhesive emulsion comprising one or more pressure sensitive polymer, wherein the pressure sensitive polymer is not silicone pressure sensitive polymer, and b. at least one material selected from the group consisting of i) a hair conditioning agent; ii) a hair cleansing agent, and, c. a deposition aid.

The present invention provides nanoparticle compositions comprising AE nanoparticles. The present invention provides AE nanoparticles comprising one or more amphiphilic entities and pharmaceutical compositions comprising AE nanoparticles. The present invention provides methods of manufacturing AE nanoparticles. The present invention provides methods of delivering a biologically active agent to a subject by administering AE nanoparticles containing a biologically active agent to a subject.