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Plasma-activated liquid can kill harmful cells, speed up wound healing, and potentially treat cancer without damaging healthy cells.

A specific group of skin stem cells was found to help maintain hair follicle cells.

Caspases are enzymes important for both cell death and various non-lethal cell functions, affecting head development and hair growth, with different caspases playing specific roles.

IL-36α helps grow new hair follicles and speeds up wound healing.

The gel with icariin speeds up wound healing, reduces scarring, and helps hair growth by controlling BMP4 signaling. It also reduces inflammation and improves wound quality in mice, adapts to different wound shapes, and gradually releases icariin to aid healing. It also prevents too much collagen and myofibroblast formation during skin healing.

Exosomes show promise for improving wound healing, reducing aging signs, preventing hair loss, and lightening skin but require more research and better production methods.

lncRNA2919 slows down rabbit hair growth by stopping cell growth and causing cell death.

Type 3 Innate Lymphoid Cells help maintain skin health and balance, and are involved in skin diseases and healing.

Human skin xenografting could improve our understanding of skin development, renewal, and healing.

The developed system could effectively treat hair loss and promote hair growth.

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

Blocking the Wnt/β‐catenin pathway can speed up wound healing, reduce scarring, and improve cartilage repair.

Hair growth and health are influenced by factors like age, environment, and nutrition, and are controlled by various molecular pathways. Red light can promote hair growth, and understanding these processes can help treat hair-related diseases.

Researchers created artificial human skin using special cells, which could help treat skin conditions like albinism and vitiligo.

There are two types of stem cells in rodent hair follicles, each with different keratin proteins.

CD34+ and CD34- melanocyte stem cells have different regenerative abilities.

Krt15+ cells in the mouse intestine resist radiation and can start tumors.

Hair follicle stem cells help maintain skin health and could improve skin replacement therapies.

iPSC-derived stem cells on a special membrane can help repair full-thickness skin defects.

Adult vibrissa follicle stem cells can regenerate hair follicles, glands, and skin.

Phyllotex™ extract was found to significantly promote hair growth and protect against hair loss.

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

Treg cell-based therapies might help treat hair loss from alopecia areata, but more research is needed to confirm safety and effectiveness.

Metabolic signals and cell shape influence how cells develop and change.

Human Schwann cells can be quickly made from hair follicle stem cells for nerve repair.

The conclusion is that understanding how hair follicle stem cells live or die is important for maintaining healthy tissue and repairing injuries, and could help treat hair loss, but there are still challenges to overcome.

Tiny vesicles from stem cells could be a new treatment for healing wounds.

Salvia plebeia extract can stimulate hair growth.

Hair follicle stem cells can become neural cells using different methods, with varying efficiency.

Cutaneous gene therapy could become a viable treatment for skin and hair disorders with improved vector development and gene expression control.