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The conclusion is that we need more effective hair loss treatments than the current ones, and these could include new drugs, gene and stem cell therapy, hormones, and scalp cooling, but they all need thorough safety testing.

MicroRNAs play a crucial role in skin and hair health, affecting everything from growth to aging, and could potentially be used in treating skin diseases.

Some hair loss disorders are caused by genetic mutations affecting hair growth.

Cedrol from Platycladus orientalis leaves may promote hair growth effectively, especially in female mice.

Using a gene therapy with the Sonic Hedgehog gene helps mice regrow hair faster after losing it from chemotherapy.

Skin and hair can regenerate after injury due to changes in gene activity, with potential links to how cancer spreads. Future research should focus on how new hair follicles form and the processes that trigger their creation.

Mice are useful for researching human hair loss and testing treatments, despite some differences between species.

Canine hair follicles have stem cells similar to human hair follicles, useful for studying hair disorders.

Skin and hair can help us understand organ regeneration, especially how certain stem cells might be used to form new organs.

Mice without collagen VI have slower hair growth normally but faster regrowth after injury.

Olive leaf compound oleuropein helps grow hair in mice.

Placental growth factor may help treat hair loss.

Different hair growth problems are caused by genetic issues or changes in hair growth cycles, and new treatments are being developed.

Plet-1 protein helps hair follicle cells move and stick to tissues.

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

Researchers found new genes involved in hair growth, which could help develop new hair treatments.

Laser therapy and hair growth factors significantly improve hair density in male baldness.

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

GasderminA3 is important for normal hair cycle transitions by controlling Wnt signaling.

CD10 and CD34 levels change during hair development and different hair growth stages, which could be important for hair regeneration treatments.

Ornithine decarboxylase is crucial for hair growth and follicle development.

Finasteride helps hair growth by decreasing cell death in hair follicles.

Cholesterol-related compounds can stop hair growth and cause inflammation in a type of scarring hair loss.

DHT affects hair follicle cells by changing microRNA levels, leading to less cell growth and more cell death.

Immune cells around hair follicles help control hair growth and could be targets for treating hair disorders.

Finasteride affects hair growth by changing caspase and XIAP levels, potentially treating hair diseases.

Graying hair happens due to aging and might be delayed by new treatments.

Ultraviolet rays damage hair, smoking may cause hair loss, and good nutrition is important for hair health, but genetics mainly decide hair thickness.

Intu gene is crucial for hair follicle formation by helping keratinocytes differentiate through primary cilia.

Moderately high prolactin levels do not cause hair loss in women.