References

Oxidative Stress in the Pathogenesis of Skin Disease 

David R. Bickers and Mohammad Athar.  Journal of Investigative Dermatology (2006) 126, 2565–2575

Skin is the largest body organ that serves as an important environmental interface providing a protective envelope that is crucial for homeostasis. On the other hand, the skin is a major target for toxic insult by a broad spectrum of physical (i.e. UV radiation) and chemical (xenobiotic) agents that are capable of altering its structure and function. Many environmental pollutants are either themselves oxidants or catalyze the production of reactive oxygen species (ROS) directly or indirectly. ROS are believed to activate proliferative and cell survival signaling that can alter apoptotic pathways that may be involved in the pathogenesis of a number of skin disorders including photosensitivity diseases and some types of cutaneous malignancy. ROS act largely by driving several important molecular pathways that play important roles in diverse pathologic processes including ischemia–reperfusion injury, atherosclerosis, and inflammatory responses. The skin possesses an array of defense mechanisms that interact with toxicants to obviate their deleterious effect. These include non-enzymatic and enzymatic molecules that function as potent antioxidants or oxidant-degrading systems. Unfortunately, these homeostatic defenses, although highly effective, have limited capacity and can be overwhelmed thereby leading to increased ROS in the skin that can foster the development of dermatological diseases. One approach to preventing or treating these ROS-mediated disorders is based on the administration of various antioxidants in an effort to restore homeostasis. Although many antioxidants have shown substantive efficacy in cell culture systems and in animal models of oxidant injury, unequivocal confirmation of their beneficial effects in human populations has proven elusive. 

Topical polyphenolic antioxidants reduce the adverse effects of intense pulsed light therapy

Plastic Surgery Associates of Northern Virginia, McLean, Virginia, USA.  J Cosmet Laser Ther. 2009 May 27:1-4. Feedman BMBackground: Intense pulsed light therapy (IPL) has been associated with erythema and increased lipid peroxidation. Polyphenolic antioxidants have been shown to decrease inflammation and reduce oxidative stress in irradiated skin. Objective: To determine whether the topical application of polyphenolic antioxidants to IPL-treated skin reduced the adverse effects of IPL exposure. Methods: In a split-face study, 10 volunteers underwent three full-face IPL treatments (16 J/cm(2), 10ms, 560nm filter) spaced 3 weeks apart. A polyphenolic antioxidant solution was pneumatically applied to the left side of the face, beginning immediately before the first IPL treatment then weekly for six treatments. The lipid peroxide concentration, skin antioxidant level and skin moisture content were obtained before and after the study. Results: Skin treated with IPL alone contained a significantly higher concentration of lipid peroxides when compared to skin treated with IPL plus polyphenolic antioxidants (p<0.05). Skin treated with IPL alone contained a significantly lower level of polyphenolic antioxidants and had a significantly lower moisture content (p<0.05). Conclusions: In this study, the concurrent pneumatic topical application of polyphenolic antioxidants reduced lipid peroxidation and skin dehydration in IPL-treated skin. Polyphenolic antioxidants may confer a protective effect on facial skin and enhance the effects of IPL therapy.

Potential Antioxidant Mechanism of Action for Metronidazole: Implications for Rosacea Management.

Yoshiki Miyachi, M.D., Ph.D. Advances in Therpy.  2001 November/December Volume 18 No. 6

Chronic inflammation is believed to account for some symptoms of rosacea. The efficacy of topical metronidazole in the treatment of rosacea may be due to its antimicrobial as well as anti-inflammatory activity. Neutrophils release potent inflammatory mediators, including reactive oxygen species (ROS), and intrafollicular neutrophils have been observed in stage II disease. ROS and other free radicals may contribute to intrinsic and extrinsic aging, both of which accentuate clinical manifestations of rosacea. If, as in vitro data suggest, metronidazole has antioxidant activity, it may help subdue the oxidative tissue damage of intrinsic and extrinsic aging as well as prevent and treat rosacea symptoms. 

Topical antioxidant application enhances the effects of facial microdermabrasion

Plastic Surgery Associates of Northern Virginia,, McLean, Virginia, USA
Journal of Dermatological Treatment, Volume 20, Issue 2 April 2009 , pages 82 - 87
Background: Microdermabrasion has been accepted as a reliable, non-invasive method for facial rejuvenation. Recently, there has been interest in combining this technique with other modalities to increase its efficacy. The purpose of this study was to determine whether the addition of an antioxidant-based serum enhanced the dermatologic changes seen following microdermabrasion. Methods: Ten female volunteers, aged 38-52 years, underwent a series of six diamond tip crystal-free microdermabrasion facial treatments spaced 7-10 days apart. An antioxidant serum rich in polyphenols was pneumatically applied to half the face immediately after each microdermabrasion treatment. Skin biopsies and skin polyphenolic antioxidant levels, determined by Raman spectroscopy, were obtained prior to and after the study period. Investigator ratings for efficacy were analyzed after the study period and compared to baseline. Results: Compared with the skin treated with microdermabrasion only, the skin treated with microdermabrasion plus antioxidant demonstrated significantly increased epidermal and papillary dermal thickness, and increased fibroblast density (p < 0.01). There was increased hyalinization of the papillary dermis with newly deposited collagen fibers. Skin polyphenolic antioxidant levels increased 32% in the skin treated with the polyphenolic antioxidant serum after microdermabrasion (p < 0.01). Clinical efficacy variables were significantly more improved in the antioxidant group when compared to baseline (p < 0.01). These changes were supported clinically via digital photography. Conclusion: The addition of a polyphenolic antioxidant serum to a facial microdermabrasion regimen enhanced the clinical and histological changes seen following microdermabrasion alone. This combination should strengthen the use of microdermabrasion as a non-invasive facial rejuvenation tool and support the role of topical antioxidants as anti-aging factors.

 

 

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