Pale rose cells for a deep moisturizing effect

Active plant cells known as HydraGeneration Pale Rose are created using a particular biotechnology that combines plant cell differentiation and a plant cell culture that regulates the creation of active chemicals inside cells. They are created from the Pale Rose (rosa centifolia), a Western rose with many petals known for its usage in scent and its medicinal abilities around the world. Research study claims that they provide skin a full hydration impact as a result of a complete hydration process. In fact, an increase in the percentage of dynamic and static fluids as well as an increase in the percentage of lipids (free fatty acids, +20%) that preserve water in the skin and deliver more water to the epidermis would result in a moisturising effect. A better hydric system is provided, and the hydrolipidic film is rebuilt, all due to an increase in cell proliferation (+13%) and differentiation (with a more uniform filaggrine).  Therefore, HydraGeneration Pale rose will enhance the skin barrier by strengthening the stratum corneum, giving skin a physical protective effect.  HydraGeneration Pale rose considerably increases skin hydration, according to a clinical trial done on the faces of 20 women. According to the clinical test results, hydration increased by 45% after 24 hours (single use) and by 72% after 28 days of treatment (twice a day use). The concentration used for all tests was 0.5% of 20% cells dispersed in 80% vegetable glycerin. The non-allergenic, preservative-free HydraGeneration Pale Rose can be used in skincare formulations (such as day cream, night cream, essence and serums, masks, etc.) as well as makeup products (such as foundation, primer, BB creams, etc.) for all skin types. As result, hydratation state depends on the value of the transepidermic flux, on the balance between diffusion and evaporation, and the ability of stratum corneum to be fixed with water, Naolys studied both the action of HydraGeneration Pale rose on dynamic water and on static water in the epidermis, but also on the cohesion between corneocytes.