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Skin stem cells are maintained by signals from nearby cells and vary in their ability to renew and mature.

Human hair follicle cells can be turned into stem cells that may help clone hair for treating hair loss or burns.

Human hair follicles can be used to create stem cells that might help clone hair for treating hair loss or helping burn patients.

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

Regenerative therapies show promise for treating vitiligo and alopecia areata.

Chemicals and stem cells combined have advanced regenerative medicine with few safety concerns, focusing on improving techniques and treatment effectiveness.

Different types of androgens bind differently to two receptors, AR1 and AR2, in Atlantic croaker's brain and ovarian tissues, suggesting these receptors may control different androgen actions in fish.

New regenerative therapies show promise for treating hair loss.

Cell therapy shows promise for treating severe psoriasis but needs more research to confirm safety and effectiveness.

Human dermal stem cells can become functional skin pigment cells.

New regenerative medicine-based therapies for hair loss look promising but need more clinical validation.

Hair follicle regeneration possible, more research needed.

Growing hair cells in the lab from plucked hairs could lead to a new, less invasive, and cheaper baldness treatment.

Hair cloning for hair loss is not yet a practical solution.

Using certain plant growth regulators together improves the cloning of the medicinal plant Eclipta alba.

Dental pulp stem cells might not reliably become neurons.

Extracts improve hair growth in alopecia.

Scientists identified three genes important for processing certain brain chemicals, thyroid hormones, and medications.

The research identified and described a gene important for hormone conversion in endangered catfish, which varies in activity during different reproductive stages and after hormone treatment.

FLRG and follistatin have different roles in wound healing.

Pitx2 helps outer root sheath cells differentiate but can't start hair growth on its own.

The β-sitosterol hair gel is effective and promising for treating hair loss.

Scientists successfully created mouse hair proteins in the lab, which are stable and similar to natural hair.

Hair follicle cloning is possible but faces many challenges before it can replace traditional hair transplants.

PAD3 plays a key role in hair and skin protein structure and may be linked to skin diseases.

The document concludes that while "hair follicle cloning" shows promise for unlimited donor hair, it faces challenges with consistency and safety in humans.

Human sweat glands have a type of stem cell that can grow well and turn into different cell types.

Stem cell therapy is a promising approach for hair regrowth despite potential side effects.

Research on "hair cloning" for hair loss shows potential for hair thickening but has not yet achieved new hair growth in humans.

Hair transplantation techniques have improved over 12 years, with follicular unit grafting providing more natural results and potential future advances in automation and genetics.