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Epidermal stem cells help renew skin and regenerate hair follicles.

Gamma rays did not change hair follicle density but increased white and hypopigmented hairs in mice.

HAP stem cells in hair follicles could help repair nerves and spinal cords.

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

Stem cells have great potential for improving wound healing, but more research is needed to find the best types and ways to use them.

Gamma-ray exposure can cause long-lasting damage to hair follicles, affecting hair structure and color.

Wnt/ß-catenin signaling is crucial for regulating skin stem cells and hair growth, with the right levels and timing needed for proper function.

Skin stem cells are maintained by signals from nearby cells and vary in their ability to renew and mature.

Wnt signaling is crucial for skin development and hair growth.

Platelet-rich plasma, taken from a person's own blood, can help rejuvenate skin, stimulate hair growth, and treat hair loss, but more research is needed to confirm its safety and effectiveness.

Melanocyte precursors in human fetal skin follow a specific migration pattern and some remain in the skin's deeper layers.

The circadian clock in skin cells controls their growth and rest cycles.

The Ovol2-Zeb1 circuit is crucial for skin healing and hair growth by guiding cell movement and growth.

Dicer is crucial for hair growth in mice.

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

Epigenetic changes are crucial for stem cell behavior in skin wound healing and their disruption may lead to cancer.

Removing the ATR gene in adult mice causes rapid aging and stem cell loss.

Beta-caryophyllene helps improve wound healing in mice, especially in females.

Beta-caryophyllene, found in essential oils, helps wounds heal better in multiple ways.

Exosomes from dermal papilla cells help hair growth by making hair follicle stem cells multiply and change.

Hair follicle stem cells are a practical and ethical option for nerve repair in regenerative medicine.

Increasing Wnt10b levels can help grow new hair follicles in mice.

Intense pulsed light treatment mainly damages pigmented hair parts but spares stem cells, allowing hair to regrow.

Rat hair-follicle stem cells can become heart cells with specific supplements.

Implanted special stem cells from hair follicles helped heal wounds faster and with less scarring in mice.

SKPs are similar to adult skin stem cells and could help in skin repair and hair growth.

Human hair follicle stem cells can turn into multiple cell types but lose some of this ability after being grown in the lab for a long time.

Dermal papilla cells help wounds heal better and can potentially grow new hair.

Scientists successfully grew new hair follicles in regenerated mouse skin using mouse and human cells.

Human hair follicle cells can be turned into neural stem cell-like cells, which might help treat brain diseases.