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3D culture helps maintain hair growth cells better than 2D culture and identifies key genes for potential hair loss treatments.

Special fiber materials boost the healing properties of certain stem cells.

3D-printed mesoporous scaffolds show promise for personalized drug delivery with controlled release.

Lower levels of certain genes in hair cells improve hair loss treatment outcomes.

Hydrogels combined with extracellular vesicles and 3D bioprinting improve wound healing.

Dermal exosomes with miR-218-5p boost hair growth by controlling β-catenin signaling.

Skin organoids are a promising new model for studying human skin development and testing treatments.

Chick embryo extract helps rat hair follicle stem cells potentially turn into Schwann cells, important for the nervous system.

Carbon dots show promise for tissue repair and growth but need more research to solve current challenges.

The study created a new model to better understand human hair growth and health.

Advanced nanocarrier and microneedle drug delivery methods are more effective, safer, and less invasive for treating skin diseases.

Elastic Net DNA methylation clocks are inaccurate for predicting age and health status; a "noise barometer" may better indicate aging and disease.

Plasma gel and PRP treatments improve skin and hair with minimal side effects.

Human hair-derived particles can effectively carry and release the cancer drug Paclitaxel in a pH-sensitive manner, potentially targeting cancer cells while sparing healthy ones.

Bioinspired polymers are promising for advanced medical treatments and tissue repair.

Inorganic-based biomaterials can quickly stop bleeding and help wounds heal, but they may cause issues like sharp ion release and pH changes.

Multi-omics techniques help understand the molecular causes of androgenetic alopecia.

Modified rat stem cells on a special scaffold improved blood vessel formation and wound healing in skin substitutes.

Injectable hydrogels are becoming increasingly useful in medicine for drug delivery and tissue repair.

The technique effectively shows how human skin and hair cells form into ball-like structures.

FoxN1 gene is essential for proper thymus structure and preventing hair loss.

Hair follicle regeneration and delivery is complex due to many molecular and cellular factors.

Bioactive molecules show promise for improving skin repair and regeneration by overcoming current challenges with further research.

Skin cysts might help advance stem cell treatments to repair skin.

CRABP2 helps increase the growth of cells important for hair growth by activating a specific growth pathway.

Cold Atmospheric Microwave Plasma (CAMP) helps hair cells grow and could potentially treat hair loss.

Researchers isolated a new type of stem cell from mouse skin that can renew itself and turn into multiple cell types.

New culture method keeps human skin stem cells more stem-like.

Touch sensitivity in mouse skin decreases during hair growth due to changes in touch receptors.

Three-dimensional culture helps dermal papilla cells grow new human hair follicles.