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

Vitamin D3 can help improve hair growth by enhancing the function of specific skin cells and could be useful in hair regeneration treatments.

PI3K/Akt pathway is crucial for hair growth and regeneration.

Immune cells help regulate hair growth, and better understanding this can improve hair loss treatments.

Fully regenerating human hair follicles not yet achieved.

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

Wnt1a helps keep cells that can grow hair effective for potential hair loss treatments.

Scientists have created a method to deliver specific cells that can regenerate hair follicles, potentially offering a new treatment for hair loss.

Inflammation plays a key role in activating skin stem cells for hair growth and wound healing, but more research is needed to understand how it directs cell behavior.

Animal models are crucial for learning about hair loss and finding treatments.

Flightless I protein affects hair growth, with low levels delaying it and high levels increasing hair length in rodents.

Nanofiber structure helps regenerate hair follicles.

The best method for transplanting skin cells to regenerate hair follicles is the Hemi-vascularized sandwich method, as it produces more mature follicles and promotes hair growth.

Nanog gene boosts stem cells, helps hair growth, and may treat hair loss.

PCAT1 helps hair growth by controlling miR-329/Wnt10b.

H19 boosts hair growth potential by activating Wnt signaling, possibly helping treat hair loss.

mTORC1 signaling needed for quick hair follicle recovery after radiation damage.

XIST RNA helps regenerate hair follicles by targeting miR-424 and activating hedgehog signaling.

Quercetin significantly helps hair growth by activating hair follicles and improving blood vessel formation around them.

The microenvironment, especially mechanical forces, plays a crucial role in hair growth and could lead to new treatments for hair loss.

Hair transplants can make hair follicles larger and hair shafts thicker.

A new model for hair regeneration in mice was created in 2015, which is faster and less invasive than the old method, producing normal hairs in about 21 days.

Scaffold improves hair growth potential.

Mice with too much sPLA₂-IIA have hair loss and poor wound healing due to abnormal hair growth and stem cell depletion.

Hair follicles and deer antlers regenerate similarly through stem cells and are influenced by hormones and growth factors.

Using special RNA to target a mutant gene fixed hair problems in mice.

Gamma-rays exposure during the resting phase of hair growth can damage hair regeneration and color in mice.

A specific type of skin cell creates an opening for hair to grow out, and problems with this process can lead to skin conditions.

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

Electrospun matrices help regenerate skin and hair follicles using PCL and collagen scaffolds.