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Touching hair can activate nearby nerve cells through signals from the hair's outer layer.

Epithelial-mesenchymal interactions control hair growth cycles through specific molecular signals.

Nuclear Factor I-C is important for controlling hair growth by affecting the TGF-β1 pathway.

In vivo lineage labelling is better than in vitro methods for identifying and understanding stem cells.

Hair loss caused by genetics and hormones; more research needed for treatments.

B-Raf and C-Raf are essential for maintaining melanocyte stem cells to prevent hair graying.

Melanocytes produce melanin; their defects cause vitiligo and hair graying, with treatments available for vitiligo.

Treatment with plasma rich in growth factors improved hair density and thickness for hair loss patients.

Melanocyte stem cells are crucial for skin pigmentation and have potential in disease modeling and regenerative medicine.

Feather growth and regeneration involve complex patterns, stem cells, and evolutionary insights.

Hair follicles help attract immune cells to the skin during stress.

Azelaic acid helps protect hair cells from UV damage and encourages hair growth by increasing certain gene expressions and proteins.

Organs like hair follicles can renew themselves in complex ways, adapting to different needs and environments.

Skin bacteria, specifically Staphylococcus aureus, help in wound healing and hair growth by using IL-1β signaling. Using antibiotics on skin wounds can slow down this natural healing process.

No treatment fully prevents hair loss from chemotherapy yet.

Hair RiseTM microemulsion effectively promotes hair growth and treats hair loss better than standard treatments.

Plant extracts may help prevent or reverse hair graying.

Special proteins are important for skin balance, healing, and aging, and affect skin stem cells.

Natural products may help treat hair loss by promoting hair growth with fewer side effects.

Nanocarriers with plant extracts show promise for safe and effective hair growth treatment.

Basonuclin 2 is vital for the development of facial bones, hair follicles, and male germ cells in adult mice, and its absence can lead to dwarfism and abnormal follicles.

Artificial skin development has challenges, but new materials and understanding cell behavior could improve tissue repair. Also, certain growth factors and hydrogel technology show promise for advanced skin replacement therapies.

Both main and alternative Wnt signaling are important for regrowing rodent whisker follicles.

Mice without certain skin enzymes have faster hair growth and bigger eye glands.

Improved understanding of stem cell mechanisms can enhance skin tissue engineering.

Excessive sun protection might cause frontal fibrosing alopecia by disrupting skin immune balance.

Elf5 controls skin cell growth and development, making it a potential target for skin treatments.

New research shows that skin diversity is influenced by different types of dermal fibroblasts and their development, especially involving the Wnt/β-catenin pathway.

RT1640 treatment reverses gray hair and promotes hair growth in mice.

TLR2 is important for hair growth and can be targeted to treat hair loss.