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Microspheric skin organoids can be used for drug testing, identifying Minoxidil as a Wnt pathway activator.

Hydrophobized silica nanoparticles penetrate the skin's outer layer more effectively, while hair follicle density doesn't impact their accumulation.

Hair structural proteins are synthesized sequentially in specific cells, offering a new way to study hair proteins and defects.

Different types of skin cells create unique support structures that can affect skin cell growth and could help in skin repair.

A silk fibroin hydrogel boosts wound healing and hair growth by increasing collagen and hair follicles.

Less stiff collagen promotes higher cell growth in hair follicles.

A new method effectively visualizes keratin in hair without harsh chemicals.

Collagen networks play a key role in hair loss and follicle miniaturization.

Engineered nanovesicles from hair follicle stem cells enable scarless healing of infected wounds.

AFM helps study hair surfaces for dermatology, cosmetics, and forensics.

Biofibre hair implants are safe, well-tolerated, and provide immediate cosmetic improvement for hair loss.

Oxidation changes the structure of hair protein filaments, causing them to compact and rearrange.

Microneedle radiofrequency helps skin repair and rejuvenate by activating fibroblasts and remodeling the skin's structure.

Basement membrane-like ECM supports fibroblast aggregation and cohesion.

A300 membranes help skin heal faster by promoting cell growth and repair.

The film-trigger applicator improves microneedle skin delivery and drug efficiency using simple finger force.

Actin and alpha-smooth muscle actin help skin heal in mouse fetuses.

HFMs can help study hair growth and test potential hair growth drugs.

The hydrogel helps heal skin injuries by promoting blood vessel and hair growth.

Natural product nanoparticles improve drug absorption but need better stability and production methods.

Drying hair with a microfiber towel better maintains hair strength and structure than using a cotton towel or blow-drier.

The hydrogel scaffold improved skin flap healing and reduced inflammation.

The ovine interdigital sinus has a complex structure with three layers and various skin-like features.

Keratin biomaterials can effectively aid peripheral nerve regeneration and improve recovery.

Scientists recreated human hair follicles in the lab that can grow hair.

Tenascin-C and tenascin-W help control stem cell movement and growth in whisker follicles.

The hydrogel is versatile and easy to make.

The new method can create hair follicle-like structures but not complete hair with roots and shafts, needing more improvement.