 |
| Intelligent anti-aging skin care based on independent research |
| Lose wrinkles, keep your bank account! |
|
|
|
|
 |
You are here: Skin Care Research >
Author: Sorg O; Tran C; Saurat JH
Author affiliation: Department of Dermatology, University Hospital, Geneva, Switzerland.
Publication date & source: 2001.11.-1200, Skin Pharmacol Appl Skin Physiol, 14(6):363-72
Publication type: Review
Vitamins A and E are present in mammalian skin. Although the main circulating form of vitamin A in the blood is retinol, the epidermis stores it as retinyl esters. The epidermis can be easily loaded with high amounts of vitamin A by topical application of either retinol or retinaldehyde, two well-tolerated precursors of the biologically active retinoic acid, while topical alpha-tocopherol loads the epidermis with vitamin E. The probable physiological function of epidermal vitamin E is to contribute to the antioxidant defense of the skin, whereas that of epidermal vitamin A (retinol and retinyl esters) is not yet well understood. Besides being a precursor for retinoic acid, vitamin A also has a free radical scavenging potential. Due to their physical properties, vitamins A and E absorb ultraviolet (UV) light in the region of solar spectrum that is responsible for most of the deleterious biological effects of the sun. In the mouse, topical vitamin A has been shown to prevent the UV-induced epidermal hypovitaminosis A, while topical vitamin E prevents oxidative stress and cutaneous and systemic immunosuppression elicited by UV. Thus constitutive epidermal vitamins A and E appear complementary in preventing UV-induced deleterious cutaneous and systemic effects, and these properties can be reinforced by topical application of retinol or retinaldehyde and topical alpha-tocopherol.
Home | About Us | Contact Us | Ask a Question | Resources Copyright © 1999-2009 by Dr. G. Todorov / SmartSkinCare.com Site Disclaimer | Copyright Certification
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||