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No treatment fully stops excessive hair growth in women, but various methods can help manage it effectively.

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

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.

Hair follicle stem cells can form both hair follicles and skin.

Myc activation reduces skin stem cells by affecting cell adhesion.

Different fibroblasts play key roles in skin healing and scarring.

Older mice have stiffer skin with less elasticity due to changes in collagen and skin structure, affecting aging and hair loss.

Chitosan hydrogels are promising for repairing blood vessels but need improvements in strength and compatibility.

Special gels help heal diabetic foot sores and reduce the risk of amputation or death.

Bird foot scales develop differently and can repair but not fully regenerate due to the lack of specialized stem cell areas.

A certain type of skin cell, marked by EGFR, produces a lot of IGF1 and helps hair follicles grow back faster.

Targeting CXXC5 and GSK-3β may help treat male pattern baldness.

Ruxolitinib helps protect skin stem cells and keeps skin healthy in mice with skin GVHD.

Conditioned medium from keratinocytes can improve hair growth potential in cultured dermal papilla cells.

Boosting HGF signaling could improve the creation of hair follicles in lab-made skin.

Researchers created a potential skin substitute using a biodegradable mat that supports skin cell growth and layer formation.

The study found that p63 needs signals from morphogens to help skin cells differentiate properly.

Injected cells show potential for hair growth.

Hair follicle regeneration in skin grafts may be possible using stem cells and tissue engineering.

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

The document suggests a bacteria plays a significant role in acne rosacea and that white hair can regain color after transplant, meriting more research on reversing grey hair.

Engineered skin substitutes can grow hair but have limitations like missing sebaceous glands and hair not breaking through the skin naturally.

New treatments for hair loss may target specific pathways and generate new hair follicles.

The spiny mouse can regenerate its skin without scarring, which could help us learn how to heal human skin better.

Bioactive molecules show promise for improving skin repair and regeneration by overcoming current challenges with further research.

Human dermal fibroblasts help microvascular endothelial cells grow, but not vice versa.

The gene HDC is important for the development of hair follicles in newborn mice.

Different types of skin stem cells can change and adapt, which is important for developing new treatments.

Microneedle stimulation can increase hair growth in mice.

Human hair follicle dermal cells can effectively replace other cells in engineered skin.