Clinical Evaluation of a Multi‐Component Facial Mask for Moisturizing, Repairing, and Anti‐Aging Effects
Fan Yang, Miao Guo, Jinjin Zhu, Hua WangABSTRACT
Background
Facial masks are commonly used in skincare for targeted and intensive treatment. However, masks that provide only moisturizing benefits have limited functionality and may not adequately meet comprehensive anti‐aging needs.
Objectives
To design and evaluate the efficacy of a multi‐component facial mask for moisturizing, repairing, and anti‐aging effects.
Methods
The clinical efficacy of the facial mask was evaluated in a 28‐day study, with skin parameters measured immediately after application, and at 14 and 28 days. Skin hydration and transepidermal water loss (TEWL) were measured using a Corneometer and a Vapometer, respectively. Skin elasticity and firmness were assessed using a Cutometer. Facial photographs were captured using the VISIA CR system, and wrinkles and roughness were analyzed with Antera 3D.
Results
Immediate and 28‐day assessments revealed significant improvements in skin hydration and reduced TEWL (p < 0.001). After 28‐day use, skin elasticity and firmness increased by 17.31% and 16.18%, respectively. VISIA CR analysis demonstrated enhanced skin gloss and decreased redness. Antera 3D measurements indicated significant reductions in the length and width of under‐eye wrinkles and crow's feet, along with improved skin texture (p < 0.001). Participant self‐assessments reported high satisfaction with the mask's safety and efficacy, both in the short term and long term.
Conclusion
The multi‐component facial mask demonstrated significant efficacy in enhancing skin hydration, improving barrier repair, and providing anti‐aging benefits.