Pleiotropic effects of a Camellia sinensis leaf extract on in vitro and in vivo skin health characteristics.

Objective: Green tea extracts are utilized widely within the pharmaceutical and cosmetic industries given the large amount of evidence supporting a diverse range of health benefits. The cosmetic effects of green tea extracts depend on manufacturing methods, and a viable green tea extract exhibiting a diverse functional portfolio to meet consumer demands for comprehensive skin benefits is lacking. To fully capture the diverse nature of skincare products, a novel assay was developed to identify the impact of green tea extracts on the relationship between immune cell function and dermal microorganisms. Accordingly, the present study investigated the effect of a Camellia sinensis Leaf Extract (CSLE) on in vitro mechanisms and in vivo indicators of skin health and well-being. This study provides the first evidence of CSLE's immunomodulatory properties on skin microorganisms via dendritic cell signalling molecules, in addition to enhancing relaxation through alpha brainwave activity with topical CSLE application.

Methods: In vitro and in chemico pre-clinical experiments were implemented to determine the immunomodulatory, detoxification, anti-inflammatory and antioxidant properties of CSLE. Additionally, in vivo clinical studies were performed to examine the impact of topical CSLE application on acute and residual mood states, skin hydration, barrier function, rejuvenation and facial skin health.

Results: Pre-clinical investigations illustrated CSLE augmented the ability of signalling molecules released from dendritic cells to kill detrimental microorganisms while maintaining commensal microorganisms commonly found on the skin. Furthermore, CSLE increased cellular detoxification, reduced inflammation and exhibited potent antioxidant capacity. Regarding clinical studies, acute topical CSLE application enhanced relaxation and improved residual feelings of self-worth and mood while augmenting skin hydration, barrier function and rejuvenation. Moreover, long-term CSLE application improved facial skin health and lowered skin age.

Conclusion: Collectively, CSLE retains detoxification, anti-inflammatory and antioxidant properties while improving mood states, skin hydration, skin barrier function, skin rejuvenation and facial skin health. Notably, we provide the first evidence of CSLE's immunomodulatory properties on skin microorganisms via dendritic cell signalling molecules, in addition to enhancing relaxation through alpha brainwave activity with topical CSLE application. Overall, the present investigation demonstrates CSLE elicits a diverse and comprehensive efficacy portfolio for utilization in skincare products.