Antioxidant Capacity
The antioxidant potential of the skin plays a critical role in aging. External stressors such as UV radiation and environmental pollutants generate reactive species and induce biochemical alterations, impacting the antioxidant potential of skin cells.
We offer in vitro models to assess antioxidant capacity, including:
We evaluate the following biomarkers:
Skin Aging and Protection
Skin aging is a multifactorial process characterized by structural and functional deterioration. We investigate novel dermocosmetic strategies aimed at preventing or mitigating age-related changes.
Our in vitro models include:
We analyze key biomarkers, such as:
• Circadian rhythm regulators
Skin Hydration, Barrier Function, and Wound Healing
The skin acts as a protective barrier against environmental stressors while maintaining hydration by preventing excessive water loss. Impaired barrier function can lead to dryness, irritation, and compromised wound healing.
Our in vitro models include:
We evaluate:
Skin Pigmentation
Melanogenesis, the process of melanin synthesis, determines skin and hair pigmentation. Both depigmenting and pro-pigmenting agents are widely used in cosmetic applications to modulate skin tone and address pigmentation disorders.
Our in vitro models include:
• Normal Human Epidermal Melanocytes (NHEM)
We evaluate:
Skin Inflammation
Skin inflammation reflects an immune response to various stimuli, ranging from acute infections to chronic conditions such as psoriasis or atopic dermatitis.
Our in vitro models include:
We assess inflammation markers with or without external stimulants (LPS, histamine, UV, PMA):
Anti-Pollution Effects
Airborne pollutants, including particulate matter (PM), polycyclic aromatic hydrocarbons (PAHs), volatile organic compounds (VOCs), and ozone (O₃), contribute to skin aging, inflammation, and conditions such as eczema, psoriasis, and acne.
Our in vitro models include:
We analyze:
