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New cells are added to the hair's dermal papilla during the active growth phase.

Scientists created 3D hair-like structures that could help study hair growth and test treatments.

Skin cells can help create early hair-like structures in lab cultures.

Activating β-catenin in certain skin cells speeds up hair growth in mice.

Cells treated with Wnt-10b can grow hair after being transplanted into mice.

Certain cells outside the hair follicle's bulge area can quickly regenerate damaged hair follicles, potentially helping to reduce hair loss from cancer treatments.

Using bioreactors, scientists can grow more skin stem cells that keep their ability to regenerate skin and hair.

Growing hair cells with dermal cells can potentially treat hair loss.

Bioluminescence imaging can track hair follicle cells and help study hair regrowth.

The conclusion is that teeth, hair, and claws have similar stem cell niches, which are important for growth and repair, and more research is needed on their regulation and potential markers.

A specific microRNA, chi-miR-30b-5p, slows down the growth of hair-related cells by affecting the CaMKIIδ gene in cashmere goats.

Researchers found a way to turn skin cells into cells that can grow new hair.

Low oxygen levels improve the function of hair and skin cells when they are in direct contact.

Stem cells and their secretions could potentially treat stress-induced hair loss, but more human trials are needed.

The study concluded that changing the culture conditions can cause sika deer skin cells to switch from a flat to a 3D pattern, which is important for creating hair follicles.

STAT5 is crucial for hair growth in 3D cultured human dermal papilla cells.

CCL5 is important for the hair growth potential of human dermal papilla cells.

The document concludes that identifying the specific cells where skin cancers begin is important for creating better prevention, detection, and treatment methods.

Hair follicle cells change their DNA packaging during growth cycles and when grown in the lab.

DHT reduces a cell's ability to promote hair growth, while 3D culture without DHT improves it.

Blocking Prostaglandin D₂ (PGD₂) could help treat hair loss.

The document concluded that stem cells are crucial for skin repair, regeneration, and may help in developing advanced skin substitutes.

Different small areas within hair follicles send specific signals that control what type of cells stem cells become.

The skin protects the body and is constantly renewed by stem cells; disruptions can lead to cancer.

PHBV nanofiber matrices help wounds heal faster when used with hair follicle cells.

Technique creates 3D cell spheroids for hair-follicle regeneration.

Cell-based therapies using dermal papilla cells and adipocyte lineage cells show potential for hair regeneration.

Further research is needed to improve hair regeneration using stem cells and nanomaterials.

Stem cell technologies and regenerative medicine, including platelet-rich plasma, show promise for hair restoration in treating hair loss, but more research is needed.

Mesenchymal stem cell therapy may help treat alopecia areata by promoting hair growth and reducing inflammation.