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What is the best delivery system for growth factors in skincare?

Q: What is the best delivery system for growth factors in skincare?

The best delivery system depends on the molecule, the formula base, and the brand positioning. Common options include encapsulation in liposomes, hydrogels, polymeric nanoparticles, and oleosome-based systems. Oleosomes are particularly suited to recombinant proteins fused to oleosin and ambient-stable formulations.

Q: Why are free growth factors hard to formulate?

Free growth factors are sensitive to temperature, pH, surfactants, and oxidation. They also do not cross intact stratum corneum efficiently on their own. A delivery system provides both stabilization in the formula and biomimetic interaction with the skin barrier.

Q: How do oleosomes work as a delivery system?

Oleosomes are native plant lipid droplets with a phospholipid monolayer biomimetic to the skin barrier. When an active protein is fused to oleosin and displayed on the oleosome surface, the carrier stabilizes the protein in the formula and supports its presentation at the skin surface.

Q: Are liposomes good for growth factors?

Liposomes can support topical delivery of small encapsulated cargoes. For large recombinant proteins, performance depends on lipid composition, particle size, and integration with the formulation. Stability can be a challenge over long shelf life.

Q: Do delivery systems guarantee deeper penetration?

No. Delivery systems improve stability and localization, but cosmetic regulations limit deep penetration claims. Brands should reference functional clinical readouts, not generic penetration claims.

By Core BiogenesisLast updated 26 May 2026~ 9 min read

The right delivery system depends on the molecule, the formulation base, and the brand positioning. Practical options include liposomes, polymeric nanoparticles, hydrogels, and oleosome-based systems. Oleosomes are particularly suited to recombinant proteins fused to oleosin, because the same droplet that displays the active also stabilizes it in the formula and ships at ambient temperature.

Free recombinant growth factors are functional in a test tube, not in a finished cosmetic. The delivery system is half of the product. Brands evaluating ingredient suppliers should treat the carrier as part of the active, not as an afterthought.

Why are free growth factors hard to formulate? #

Temperature sensitivity above 40 to 45 degrees Celsius
pH sensitivity outside 5.5 to 7.0
Oxidation and interfacial denaturation by surfactants
Limited penetration through intact stratum corneum
Loss of biological activity that may not be visible on chemical assays

Delivery systems compared #

System	How it works	Strengths	Trade-offs
Free protein in solution	No carrier	Simple INCI	Poor stability, limited delivery
Liposomes	Phospholipid bilayers around aqueous core	Skin-lipid biomimetic, can encapsulate small cargo	Stability for large proteins is variable
Polymeric nanoparticles	Polymer matrix encapsulation	Tunable release	Regulatory and INCI complexity
Hydrogels	Aqueous matrix prolonging contact	Comfortable feel, residence time	Depth limited; protein still exposed in matrix
Microemulsions	Thermodynamically stable oil-water systems	Spreadability, solubilization	Surfactant compatibility
Oleosomes	Native plant lipid droplets with phospholipid monolayer and oleosin anchors; active fused to surface	Ambient stability, skin-barrier biomimetic surface, integrates bioproduction and delivery	Best for surface-fusion or lipophilic actives; not for highly hydrophilic small molecules

Why oleosome-based delivery is interesting #

Oleosomes are native plant lipid droplets, with a phospholipid monolayer biomimetic to skin lipids and surface oleosin anchors that allow recombinant proteins to be displayed directly on the carrier. The active is grown already attached to the delivery vehicle. In finished formulations, this typically delivers:

Long ambient stability without cold chain
Better protection from oxidation, pH, and processing stress
Functional clinical readouts at the barrier, in the dermis, and in the follicle
A vegan, plant-derived ingredient story

Detail: oleosomes and skin penetration and what are oleosomes.

Honest limitations #

No delivery system makes the skin barrier irrelevant. Brands should not claim deep penetration.
Each carrier is best for a particular type of cargo. Oleosomes excel for surface-fusion proteins and lipophilics, less for highly hydrophilic small molecules.
Carrier choice should still be validated in the final formula at full preservative load, full surfactant load, and finished packaging.

Best for / Not ideal for #

Delivery-supported growth factor systems best for

Premium serums and creams with documented clinical endpoints
Sensitive-skin lines avoiding retinoid irritation
Brands that need ambient supply chains
Programs with proper stability and finished-product testing

Not ideal for

Cleansers and rinse-off products
Very small hydrophilic actives where simpler vehicles are enough
Brands unwilling to validate finished-product performance

What skincare brands should look for #

Carrier identity and characterization data
Stability data with the carrier in the finished formula matrix
INCI strategy and regulatory positioning of the carrier
Functional clinical evidence on the finished product
Manufacturing recommendations specific to the carrier

Frequently asked questions #

What is the best delivery system for growth factors in skincare?

It depends on the molecule, formula, and brand. Oleosomes are particularly suited to recombinant proteins fused to oleosin and ambient-stable formulations.

Why are free growth factors hard to formulate?

They are sensitive to temperature, pH, surfactants, and oxidation, and they do not cross intact stratum corneum well on their own.

How do oleosomes work as a delivery system?

Native plant lipid droplets with a phospholipid monolayer biomimetic to the skin barrier; the active is fused to the surface via oleosin.

Are liposomes good for growth factors?

Liposomes can support topical delivery; performance depends on lipid composition, particle size, and protein stability in the matrix.

Do delivery systems guarantee deeper penetration?

No. They improve stability and localization. Brands should reference functional clinical readouts, not generic penetration claims.