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Epidermal Wnt/β-catenin signaling controls fat cell formation and hair growth.

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

Targeting TGFβ can improve skin immunity in older people.

A special stem cell fluid can speed up wound healing and hair growth in mice.

Stress can cause early aging in certain skin cells, leading to problems with hair growth.

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.

Skin stem cells are promising for healing wounds and skin regeneration due to their accessibility and regenerative abilities.

Scientists made structures that look like human hair follicles using stem cells, which could help grow hair without using actual human tissue.

GDNF helps grow hair and heal skin wounds by acting on hair stem cells.

Higher cell number PRP improves hair density and diameter more than lower cell number PRP.

Certain microRNAs are important for sheep hair follicle development and could help improve wool quality.

WNT signaling is crucial for skin development and healing.

The fascial layer is a promising new target for wound healing treatments using biomaterials.

Certain genes related to sulfur metabolism are more active during the growth phase of Cashmere goat wool, and melatonin might help this process.

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

Blocking DPP4 can potentially speed up hair growth and regeneration, especially after injury or in cases of hair loss.

Hair loss can be caused by stress, aging, and harmful substances that create an imbalance in the body's natural processes.

Bioengineered nanoparticles can effectively treat hair loss by targeting specific enzymes and receptors.

New hair can grow at wound sites, which could help improve treatments for hair loss and wound healing.

HSPGs help control stem cell behavior, affecting hair growth and offering a target for hair loss treatments.

Fibroblasts and myeloid cells in mouse skin wounds are diverse and can change into different cell types during healing.

The lentiviral array can monitor and predict gene activity during stem cell differentiation.

Fat cells help recruit healing cells and build skin structure during wound healing.

Skin needs dermal β-catenin activity for hair growth and skin cell multiplication.

Keloid skin disorder involves abnormal fibroblast activation and immune response, linked to a group of genes including FGF11.

Keratin-associated proteins have ancient origins and were used for different purposes before being adapted for hair in mammals.

Ginsenoside Rd may help improve skin aging by increasing collagen in the skin.

Cells from a skin condition can create new hair follicles and similar growths in mice, and a specific treatment can reduce these effects.

Some hair protein genes evolved early and were adapted for use in hair follicles.

Fibroblast-derived growth factors and exosomes can significantly improve skin aging.