Description: The invention refers to a biocompatible oil in water (O/W) microemulsion, with hyaluronic acid and salicylic acid, designed for topical application in dermatologic therapy of acne and a method for obtaining thereof. The technical issue solved by the invention consists in: (i) designing a topical system as oil in water microemulsion, (ii) selection of two phases, an aqueous and an oil phase, a surface active mixture formed by two surfactants and a cosurfactant, the selection of a biopolymer and an antiacne active, combined in various ratios in order to obtain stable systems characterized by adequate physico-chemical parameters, which can ensure the topical application and the obtaining of a superior action in acne treatment.
The following advantages result from the invention: - the topical use of a biocompatible O/W microemulsion which may incorporate (i) an antiacne active, namely salicylic acid 0.5%, due to a surface tension modulator system with solubilization capacity and diffusion promoting properties through stratum corneum; -minimizing the adverse reactions of salicylic acid like erythema or dryness by the integration of (ii) hyaluronic acid as a biopolymer with hydrating, protective and resurfacing properties; - in addition, hyaluronic acid acts as a viscosity enhancer due to hydrogen bonds formed with water molecules, thus resulting a structural network, that promotes a minimal viscosity, enhancing the sensorial properties of the final product and increasing the level of biocompatibility; -the biocompatibility of surface tension mixture is also defined by (iii) the association of Tween 80 as a non-ionic surfactant with lecithin as a natural zwitterionic surfactant; the tensioactive mixture content is selected under the maximum required value of 70 %; -based on the described composition a clear, fluid and stable micremulsion with a high biocompatibility will result, using a simple and rapid manufacturing method without energy loss.
Organisation: “Carol Davila” University of Medicine and Pharmacy
Innovator(s): Dinu-Pîrvu Cristina Elena, Popa Lăcrămioara, Ghica Mihaela Violeta, Anuța Valentina, Prisada Răzvan-Mihai, Velescu Bruno Ștefan, Talianu Marina-Theodora