Research Paper 04

An Analysis in the Changes of Gene Expression with SPF50+ Solar Protection after UV and Blue Light Exposure.

Amaryllis Aganahi, Richard Parker, Professor Yohei Tanaka, MD

Paper Summary

This Research Paper investigates how SPF50+ solar protection influences gene expression in a 3D reconstructed human skin model after exposure to ultraviolet (UV) and blue light. It examines the impact of a specific comprehensive solar protection product on gene expression related to skin damage and repair. The study finds that SPF50+ protection significantly alters gene expression patterns, suggesting that this level of solar protection can modulate the skin's response to UV and blue light exposure. The results highlight the potential of SPF50+ Formulations in mitigating skin damage at the molecular level, offering insights into their effectiveness in skin protection strategies.

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Paper Details

Title:

Gene Expression Change Analysis Following Specific Comprehensive Solar Protection SPF50+ after Ultraviolet Light and Blue Light Exposure in a 3Dimensional Reconstructed Human Skin Mode

Formulation of focus: #3 The Tinted Serum SPF50+

Results:

The study found that SPF50+ solar protection significantly altered gene expression in a 3D human skin model exposed to UV and blue light. Specifically, the use of SPF50+ led to decreased expression of genes associated with skin damage and inflammation. Conversely, genes related to skin repair and defence were upregulated. These findings suggest that SPF50+ protection effectively mitigates the molecular effects of UV and blue light exposure, enhancing the skin's ability to resist damage and promote recovery.

Explained by Founder and Direction of Research, Richard Parker