Finally: Less Wrinkles and Increased Radiance around the Eyes with Reverta’s Ferulic Acid and Retinol Eye Cream
Ferulic Acid and Retinol Eye Cream combines powerful anti-oxidants, herbal extracts and retinol (vitamin A) to reduce wrinkles, improve skin tone and radiance around the eyes. Use daily to improve your youthful appearance.
Directions: Apply thin layer of cream to areas around the eyes, once daily. Avoid contact with eyes. Paraben-free | Cruelty-free | Fragrance-free
Ferulic Acid is found in the leaves and seeds of most plans, especially in high concentrations in the brans of rice, wheat and oats. The Ferulic Acid used in our cream is a natural product extracted from rice bran oil. Ferulic Acid is a very strong antioxidant as it can neutralize reactive oxygen species such a superoxide and nitric oxide, thereby reducing damage to the skin and preventing premature aging of the skin. Ferulic Acid antioxidant ability is boosted by exposure to UV light, indicating that it may also be useful in protecting the skin from sun damage.
Arnica extract (Arnica montana, flower parts) has been used for centuries to soothe dry, irritated skin. Arnica extract helps the rejuvenation of the skin and improves skin complexion.
Watermelon plants (Citrullus lanatus) have a defense system that protects cells against drought, heat and UV rays by a DNA protecting mechanism. Watermelon extract has been shown to improve the appearance of aged and stressed skin, as well as to reduce the severity of skin redness after UV exposure.
Ellagic Acid can be found in cranberries, pomegranate, raspberries, blackberries, strawberries, walnuts and grapes. It is also found in oak species such as the North American White Oak and European Red Oak. Ellagic Acid has been shown to have anti-proliferative and antioxidant properties. The anti-proliferative properties of Ellagic acid may be due to its ability to directly inhibit the DNA-binding of certain carcinogens such as nitrosamines. As with other polyphenol antioxidants, Ellagic Acid has a chemo-protective effect in cellular models by reducing oxidative stress.