Protective effects of a novel nutritional and phytonutrient blend on ultraviolet radiation-induced skin damage and inflammatory response through aging defense mechanisms.

BACKGROUND: The human body relies on several aging defense mechanisms (ADMs) to limit damage induced from pro-aging stressors (aging aggressors). However, such protective mechanisms can be compromised, leading to accelerated aging. The skin provides a model to probe the effects of an oral nutritional intervention on ADMs in response to ultraviolet radiation (UVR)-induced damage. OBJECTIVE: To determine whether supplementation with a novel nutritional and phytonutrient blend could protect against UVR-induced skin damage and positively influence facial skin attributes and characteristics by bolstering ADMs. METHODS: Thirty-six healthy, nonsmoking women (40-75 years) with Fitzpatrick skin types I and II were recruited. UVR-induced erythema and the number of apoptotic cells were determined before (pre-) and after 8-week (post-) supplementation. Other clinical variables included skin carotenoid concentrations, facial skin attributes and characteristics. RESULTS: Eight-week supplementation led to protection against UVR-induced skin damage as evidenced by reductions in erythema at all three minimal erythema doses (MEDs) (9.1 to 7.4 [P = 0.10]; 15.8 to 13.6 [P = 0.02]; and 19.6 to 17.3 [P = 0.01] for one, two, and three MEDs and a reduction in the average number of apoptotic cells [11.3 to 5.3, P < 0.0001] pre- and post-supplementation, respectively). Skin carotenoid concentrations increased from 28 111 Raman intensity units to 38 472 (P < 0.0001) along with noticeable improvements in facial skin attributes and characteristics: elasticity, transepidermal water loss, radiance, texture, and overall appearance (all P < 0.05) following supplementation. CONCLUSION: Eight weeks of oral supplementation positively impacted ADMs resulting in protection against UVR-induced skin damage and improvements in facial skin attributes and characteristics.