Skin Aging and Oxidative Stress

Non-ionic surfactant vesicles as a carrier system for dermal delivery of (+)-Catechin and their antioxidant effects

Numerous skin disorders and diseases are related to oxidative stress. The application of an antioxidant, serving as a strong defense agent against oxidation, is of great interest in dermatology yet remains challenging for delivery. This paper aimed to develop a niosome carrier system to deliver the antioxidant (+) Catechin into the skin. (+) Catechin-loaded niosomes were prepared using film hydration technique and the physicochemical properties of drug-loaded niosomes were characterised and investigated by a series of in vitro and ex vivo studies. The optimised formulation displayed an acceptable size in nanoscale (204 nm), high drug entrapment efficiency (49%) and amorphous state of drug in niosomes. It was found that (+) Catechin-loaded niosomes could effectively prolong the drug release. Drug deposition in the viable layers of human skin was significantly enhanced when niosomal carriers were applied (p < 0.05). Compared to the pure drug, the niosomal formulation had a greater protective effect on the human skin fibroblasts (Fbs). This is consistent with the observation of internalisation of niosomes by Fbs which was concentration-, time- and temperature-dependent, via an energy-dependent process of endocytosis. The research highlighted that niosomes are potential topical carriers for dermal delivery of antioxidants in skin-care and pharmaceutical products.

Free radical scavenging properties of mannitol and its role as a constituent of hyaluronic acid fillers: a literature review

Mannitol has both hydrating and antioxidant properties that make it an ideal excipient for use with hyaluronic acid (HA) fillers. This review examines the role of reactive oxygen species in the ageing process and their effects on both endogenous HA and HA products developed for aesthetic use. Evidence is presented to show that the free radical scavenging properties of mannitol provide it with a two-fold mechanism of action when combined with HA fillers: reducing the inflammation and swelling associated with the injection procedure itself, and preventing the degradation of the injected HA by free radicals. Mannitol also has a long- and well-established safety profile in both the food and pharmaceutical industry. Having established the rationale for using mannitol in combination with an HA filler, the products using this strategy are then reviewed. The addition of mannitol to HA fillers is a viable and safe option for improving both short- and long-term HA aesthetic effects.