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The spiny mouse regenerates ear tissue asymmetrically, with gene expression differences possibly explaining its unique healing abilities.

Activating TLR9 helps heal wounds and regrow hair by using specific immune cells.

Scarless healing is complex and influenced by genetics and environment, while better understanding could improve scar treatment.

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

The research found that a protein called PPARg is important for the formation and healing of sebaceous glands, which can regenerate independently from hair follicles.

Vitamin D Receptor is crucial for hair follicle shrinkage and cell death, affecting hair growth.

Polyglutamic acid is a valuable, sustainable ingredient for skincare and haircare products.

The skin acts like an endocrine organ, producing hormones that affect various body functions and skin health, and understanding this can lead to new treatments.

γδ T cells help with hair growth during wound healing in mice.

New methods have greatly improved our understanding of stem cell behavior and roles in the body.

Wnt10b helps blood stem cells grow after injury.

Researchers found a new gene, hacl-1, that is active in mouse hair follicles during hair growth and may be important for hair biology.

Using stem cells from fat tissue can significantly improve wound healing in dogs.

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

Valentina Greco's research shows that the environment around hair follicle stem cells is more crucial for regeneration than the stem cells themselves.

Certain cannabinoids may help increase hair growth and could be useful for treating hair loss.

Blood vessels and specific genes help turn cartilage into bone when bones heal.

Tcf3 helps cells move and heal wounds by controlling lipocalin 2.

Hair follicle stem cells and skin cells show promise for hair and skin therapies but need more research for clinical use.

MED1 affects skin wound healing differently in young and old mice.

Hair follicle regeneration is possible but challenging, especially in humans, due to the need for specific cells and a better understanding of how they signal growth.

Mitochondria may influence how cells respond to radiation, affecting nearby non-irradiated cells.

Prostaglandin helps regenerate hair follicles after radiation damage.

Growing human skin cells in a 3D environment can stimulate new hair growth.

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

The document concludes that careful design of genetic fate mapping experiments is crucial for accurate cell lineage tracing in mice.

Three specific proteins can turn adult skin cells into hair-growing cells, suggesting a new hair loss treatment.

Researchers created early-stage hair-like structures from skin cells, showing how these cells can self-organize, but more is needed for complete hair growth.

Nanoemulsions improve stability and delivery of active ingredients in cosmetics for skin and hair care.

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