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Two drugs, tofacitinib and ruxolitinib, may help regrow hair by activating hair follicles.

Topical drugs and near-infrared light therapy show potential for treating alopecia.

Geranium sibiricum extract helps hair grow and is more effective than minoxidil but can be toxic in high concentrations.

Hes1 protein is important for hair growth and regeneration, and could be a potential treatment for hair loss.

The patch assay can create mature hair follicles from human cells and may help in hair loss treatments.

Removing Dicer from pigment cells in newborn mice causes early hair graying and changes in cell migration molecules.

Collagen peptides from marine and bovine sources may help prevent hair loss by affecting hair follicle stem cells differently.

The document concludes that specific cells are essential for hair growth and more research is needed to understand how to maintain their hair-inducing properties.

MicroRNAs are important for skin health and could be targets for new skin disorder treatments.

After skin is damaged, noncoding dsRNA helps prostaglandins and Wnts work together to repair tissue and promote hair growth.

The document concludes that computational models are useful for understanding immune responses and could improve cancer immunotherapy.

Wnt proteins from certain skin cells are crucial for normal hair growth and renewal.

Advanced therapies like gene, cell, and tissue engineering show promise for hair regrowth in alopecia, but their safety and effectiveness need more verification.

Bioluminescence imaging can track hair follicle cells and help study hair regrowth.

Manipulating cell cleanup processes could help treat hair loss.

Understanding how epigenetic regulation affects stem cells is key to cancer insights and new treatments.

GRK2 is essential for healthy hair follicle function, and its absence can lead to hair loss and cysts.

The document concludes that understanding dermal papilla cells is key to improving hair regeneration treatments.

New hair loss treatments show promise, but more research is needed to confirm their effectiveness.

Fat from the body can help improve hair growth and scars when used in skin treatments.

The document concludes that dermal papilla cells are key for hair growth and could be used in new hair loss treatments.

The document concludes that new treatments for hair loss may involve a combination of cosmetics, clinical methods, and genetic approaches.

Circular RNA ERCC6 helps activate stem cells important for cashmere goat hair growth by interacting with specific molecules in an m6A modification-dependent way.

The research found that different types of fibroblasts are involved in wound healing and that some blood cells can turn into fat cells during this process.

Researchers created a fully functional, bioengineered skin system with hair from stem cells that successfully integrated when transplanted into mice.

Skin stem cells interacting with their environment is crucial for maintaining and regenerating skin and hair, and understanding this can help develop new treatments for skin and hair disorders.

Adding human blood vessel cells to hair follicle germs may improve hair growth and quality.

Vitamin D3-activated cell byproduct promotes hair growth in mice by increasing blood vessel growth.

Tiny particles from stem cells can help protect ear cells from antibiotic damage by helping cells remove damaged parts.

Fat stem cells help rejuvenate skin, reduce wrinkles, lighten skin, and promote hair growth.