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Hair can regrow in large wounds through a process similar to how hair forms in embryos, and understanding this could lead to new treatments for hair loss or scarring.

Certain signals and genes play a key role in hair growth and regeneration, and understanding these could lead to new treatments for skin regeneration.

Electrospun nanofibers show promise for enhancing blood vessel growth in tissue engineering but need further research to improve their effectiveness.

Diabetes causes lasting cell dysfunctions, leading to serious complications even after blood sugar is controlled.

Hair follicle studies suggest that maintaining telomere length could help treat hair loss and graying, but it's uncertain if mouse results apply to humans.

Vitamin C helps adipose-derived stem cells grow and may support hair growth.

Stem cells can help regenerate hair follicles.

Touch sensitivity in mouse skin decreases during hair growth due to changes in touch receptors.

Macrophages help heal nerves by aiding the maturation of Schwann cells and are important for nerve repair.

MicroRNA-302 helps improve the conversion of body cells into stem cells by blocking NR2F2.

A WNT10A gene mutation leads to ectodermal dysplasia by disrupting cell growth and differentiation.

Dermal EZH2 controls skin cell development and hair growth in mice.

The topical inhibitor CUR61414 was not effective in treating basal cell carcinoma in human trials.

New therapies are being developed that target integrin pathways to treat various diseases.

Hair ages and thins due to factors like inflammation and stress, and treatments like antioxidants and hormones might improve hair health.

Biomimetic scaffolds are better than traditional methods for growing cells and could help regenerate various tissues.

The treatment was ineffective in humans.

The enzyme pyruvate kinase M2 helps hair regrowth and could be a potential treatment for hair loss.

Ovol2 is crucial for hair growth and skin healing by controlling cell movement and growth.

The article concludes that hair loss is a common side effect of drugs treating skin cancer by blocking the hedgehog pathway, but treatment should continue, and more selective drugs might prevent this side effect.

Miz1 is essential for proper hair structure and growth.

Understanding glycans and enzymes that alter them is key to controlling hair growth.

Hair growth is influenced by hormones and goes through different phases; androgens can both promote and inhibit hair growth depending on the body area.

Mice that can regenerate tissue have cells that pause in the cell cycle, which is important for healing, similar to axolotls.

Lanceolate complexes in mouse hair follicles are essential for touch and depend on specific cells for maintenance and regeneration.

Follistatin and LIN28B together improve the ability of inner ear cells in mice to regenerate into hearing cells.

High-dose finasteride may help treat glioblastoma but needs localized delivery for effectiveness.

Targeting the HEDGEHOG-GLI1 pathway could help treat keloids.

Keratin 18 helps diagnose and predict cancer progression and affects cancer growth and spread.

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