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A gene variant causes patched hair loss in mice, similar to alopecia areata in humans.

Nanotechnology shows promise for better drug delivery and cancer treatment.

Hair and nails are skin parts that develop early and serve protective and functional roles.

Finasteride irreversibly affects human steroid 5α-reductase 2, providing insight into its catalytic mechanism and disease-related mutations.

Nanoencapsulation creates adjustable cell clusters for hair growth.

New lipid nanoparticles show promise for delivering hair loss treatments but need improvement for better skin penetration.

New physical methods like electrical currents, ultrasound, and microneedles show promise for improving drug delivery through the skin.

Understanding cultural hair care practices is essential for improving hair health in the African American population.

Nanofibers improve skincare products by enhancing drug delivery and hydration.

Clozapine levels in hair reflect dosage and bind more to pigmented hair.

Scientists made human hair magnetic by coating it with special nanoparticles.

Electrospun 3D nanofibrous materials show promise for bone regeneration in orthopaedics.

Advanced hydrogels can autonomously deliver drugs to treat radiation skin injuries, but challenges remain for clinical use.

Using wigs, hairpieces, and sprays can help people with hair loss feel better about themselves.

Scalp injuries and harsh hair care can cause severe hair matting in children.

The hydrogels are strong, self-healing, and good for 3D printing and delivering treatments.

RADA16-I can effectively deliver and release mangiferin, improving its solubility and bioavailability.

Precise cell manipulation technologies are advancing but still face challenges in improving accuracy for medical use.

Droplet-based microfluidics improves delivery of bioactive compounds in food using precise encapsulation and release.

A new hair treatment using a natural polyphenol complex improves hair strength, reduces static, and protects against UV damage.

EISA uses enzymes to create precise nanostructures in cells, offering new ways to design adaptive materials and therapies.

Eating peptides from certain shellfish may help wounds heal faster by reducing inflammation.

Engineered protein hydrogels improve medical treatments by mimicking natural body structures.

A new CBD topical formulation may effectively and safely treat alopecia.

Microfluidic technology improves cell spheroid creation for better drug testing and tissue engineering.

Curcumin can be effectively loaded into polystyrene nanoparticles, which are safe for human cells and more biocompatible with curcumin inside.

Microfluidics can create precise, efficient delivery systems for food and cosmetics, but scaling up is challenging.

Cell membrane-coated nanoparticles could improve gene therapy by enhancing delivery and targeting of nucleic acids.

The film creates vibrant colors and can be used in food sensors and cosmetics.

The technique helps measure how hair styling ingredients affect hair's stiffness and flexibility.