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CCL5 is important for the hair growth potential of human dermal papilla cells.

White hair grows thicker and faster than black hair due to higher activity of growth-related genes and proteins.

Epidermal stem cells show promise for treating orthopedic injuries and diseases.

Fibroblast Growth Factors (FGFs) are important for tissue repair and regeneration, influencing cell behavior and other factors involved in healing, and are crucial in processes like wound healing, bone repair, and hair growth.

Wnt5a may slow down hair growth in mice.

Using radiation to make mice's hair turn gray helps study and find ways to prevent or reverse hair graying.

New understanding of the causes of primary cicatricial alopecia has led to better diagnosis and potential new treatments.

Melanocyte development from neural crest cells is complex and influenced by many factors, and better understanding could help treat skin disorders.

Skin healing from blisters can delay hair growth as stem cells focus on repairing skin over developing hair.

Stress can cause hair loss by affecting nerve-related hair growth, and noradrenaline might help prevent this.

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

Gray hair can potentially be reversed, leading to new treatments.

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

Stress may trigger hair loss by affecting immune protection in hair follicles.

Researchers developed a 3D model of human hair follicle cells that can help understand hair growth and test new hair loss treatments.

Autologous cellular micrografts improve hair density and thickness in the short term for androgenetic alopecia.

The herbal extract SHJ promotes hair growth and increases melanin production.

New treatments and early diagnosis methods for permanent hair loss due to scar tissue are important for managing its psychological effects.

The review found that different stem cell types in the skin are crucial for repair and could help treat skin diseases and cancer.

Understanding how hair follicle stem cells work can help find new ways to prevent hair loss and promote hair growth.

The study created a tool that mimics natural cell signals, which increased cell growth and could help with hair regeneration research.

Stem cells compete for space using cell adhesion, and mutations can affect their competitive success, with implications for tissue health and disease.

Thymic mesenchymal cells have unique gene expression that supports their specific functions in the thymus.

Lymphatic vessels are essential for hair follicle growth and skin regeneration.

Fat-derived stem cells can help protect and repair skin stem cells from aging caused by UV light.

Hoxc genes control hair growth through Wnt signaling.

Hdac1 and Hdac2 help maintain and protect the cells that control hair growth.

Intravital imaging helps us better understand stem cells in their natural environment and could improve knowledge of organ regeneration and cancer development.

Wound healing insights can improve regenerative medicine.

Environmental factors at different levels control hair stem cell activity, which could lead to new hair growth and alopecia treatments.