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Bioengineering can potentially treat hair loss by regenerating hair follicles and cloning hair, but the process is complex and needs more research.

Researchers developed a method to grow hair follicle cells for transplantation using a special chip.

Encapsulated human hair cells can substitute for natural hair cells to grow hair.

Dermal papillae cells, important for hair growth, come from multiple cell lines and can be formed by skin cells, regardless of their origin or hair cycle phase. These cells rarely divide, but their ability to shape tissue may contribute to their efficiency in inducing hair growth.

Gene network oscillations inside hair stem cells are key for hair growth regulation and could help treat hair loss.

Angiogenin helps hair grow by stimulating cell growth and blood vessel formation.

Keratinocytes help keep hair follicle cells and skin cells separate in 3D cultures, which is important for hair growth research.

Resveratrol may help hair grow, but more research is needed.

Certain genes are more active in baby scalp cells and can help grow hair when added to adult mouse skin cells.

Lab-made tissues from dog fat stem cells can help grow hair by releasing a growth factor.

The we/we wal/wal mice have defects in hair growth and skin layer formation, causing hair loss, useful for understanding alopecia.

The gel with icariin speeds up wound healing, reduces scarring, and helps hair growth by controlling BMP4 signaling. It also reduces inflammation and improves wound quality in mice, adapts to different wound shapes, and gradually releases icariin to aid healing. It also prevents too much collagen and myofibroblast formation during skin healing.

Chilled ATPv-supplemented saline best preserves hair grafts' key genes.

Noncrosslinked hyaluronic acid helps human hair cells grow and could be a potential hair loss treatment.

Extracts from three Polynesian plants were found to promote hair growth by affecting cell growth and gene expression related to hair.

Tissue engineering could be a future solution for hair loss, but it's currently expensive, complex, and hard to apply in real-world treatments.

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

Transplanted hair follicles can change and adapt to new areas of the body, with the immune system possibly playing a role in this adjustment.

Scientists created three types of structures to help regrow hair follicles, and all showed promising results for hair regeneration.

Bio-pulsed stimulation increases production of beneficial vesicles from bird stem cells that improve skin and hair cell functions.

Dermal papilla cells are key for hair growth and color, influencing hair type and size, and their interaction with stem cells could help treat hair loss and color disorders.

A new method quickly and efficiently isolates hair follicle stem cells from adult mice, promoting hair growth.

Extracellular vesicles, including exosomes from certain cells, can stimulate hair growth.

Low-frequency electromagnetic fields help regenerate hair follicles using a mix of skin cells.

Scientists created early-stage hair follicles from human skin cells, which could help treat baldness and study hair growth.

Stem cells could improve hair growth and new treatments for baldness are being researched.

Hdac1 and Hdac2 help maintain and protect the cells that control hair growth.

A single medium, PRIME AIRLIFT, supports better human hair follicle formation in grafts.

Exosomes can help promote hair growth and may treat hair loss.

FGF5 spliceosomes inhibit rabbit hair growth by affecting gene expression.