Exosome Technology in Skincare

Nano-Scale Biological Signal Technology

EXOSOME TECHNOLOGY

Exosomes are nano-sized extracellular vesicles (approx. 30–150 nm) that play a central role in intercellular signal transduction in biological systems. In modern cosmetic formulations, exosome-inspired active ingredient systems are used to specifically support skin physiological processes, structure-related mechanisms, and cosmetic signal modulation.

CELONÍQUE develops plant-based exosome analog systems with high structural stability and equipment compatibility – in compliance with the European Cosmetics Regulation.

Nano-scale Vesicular Architecture

Structural integrity

Exosomes feature a lipid-based bilayer membrane that stabilizes bioactive molecular cargo and ensures its structural integrity within topical cosmetic systems.

This nanostructured vesicular architecture enables controlled release dynamics and forms the basis for precise cosmetic signal interaction with the skin surface.

Biological Characteristics of Exosomes

Nano-structure (30–150 nm)

Exosomes are extracellular vesicles in the size range of 30–150 nanometers and serve as carriers of biological information molecules in cosmetic applications.

Bioactive Molecular Cargo

They transport peptides, proteins and signal mediators that can support fibroblast-associated processes and skin physiological processes.

Cellular Signaling

By interacting with the skin surface, exosome-based systems contribute to supporting structure-related processes such as collagen and elastin dynamics.

Intercellular Communication Systems

Cellular Signal Transduction

Exosomes function as natural information carriers within intercellular communication processes.

Through interaction with the skin surface, exosome-inspired cosmetic systems support signal-related mechanisms involved in fibroblast-associated activity patterns and collagen- and elastin-related structural processes.

The nano-scaled vesicle architecture enables precise signal modulation in a cosmetic context and supports the skin in maintaining its physiological balance.

Nanoscale Vesicle Stability

Structural Integrity

Xosomes feature a lipid-based double-layer membrane that stabilizes the molecular cargo and ensures its structural integrity within topical cosmetic systems.

This vesicular architecture forms the basis for a controlled, cosmetic signal interaction with the skin surface.

Surface Interaction

Membrane association

Nano-vesicles interact with the epidermal environment and support processes of intercellular communication in cosmetic applications.

The structured membrane association forms a basis for signal-oriented skin processes.

Signal Modulation

Biological cascade support

Exosome-inspired systems contribute to supporting fibroblast-associated activity patterns and are related to collagen- and elastin-related structural mechanisms.

Dermal Dynamics

Structure-Related Skin Processes

In a cosmetic context, the formulations support processes associated with dermal elasticity, collagen balance, and the structural architecture of the skin.

Technological Integration

Instrumental Synergy

The systems are optimized for conductivity, stability, and molecular integrity for EMS, ultrasound, LED, and iontophoretic applications.

Biological Characteristics of Exosomes

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