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Light can activate hair growth through a pathway from the eyes to hair follicles.

Epithelial stem cells can adapt and help in tissue repair and regeneration.

Alopecia areata is caused by immune attacks on hair follicles, affecting hair growth and quality of life.

Similar treatments might work for different types of scarring hair loss.

Janus kinase inhibitors are effective and safe for treating alopecia areata.

The study found that different genes are active in cashmere goats' hair growth stages, which can help improve cashmere production.

Various treatments effectively manage androgenetic alopecia.

Papulopustular rosacea is an inflammatory skin condition treatable with lifestyle changes and medications.

Myoepithelial cells can repair airways after severe injury.

Skin and hair can help us understand organ regeneration, especially how certain stem cells might be used to form new organs.

Wounds heal without scarring in early development but later result in scars, and studying Wnt signaling could help control scarring.

Scientists can mimic hair disorders by altering genes in lab-grown human hair follicles, but these follicles lack some features of natural ones.

Yak hair follicles adapt to cold through specific gene regulation, enhancing cell growth.

Male pattern baldness may be reversed by reducing scalp tension and improving blood flow.

Male pattern baldness may be reversed by addressing scalp tension and improving blood flow.

Mouse hair follicle stem cells lose their ability to change into different cell types after being grown for a long time.

Sebaceous glands can form new hair follicles when activated, but hair follicle bulges cannot.

New materials help control stem cell growth and specialization for medical applications.

Red light at 8 mW/cm2 most effectively promotes hair cell growth and affects key growth pathways, especially in cells treated with a hair loss-related hormone.

Male pattern baldness may be reversed by reducing scalp tension and improving blood flow.

Male pattern baldness may be treated by addressing blood flow and electrical issues in the scalp.

A new treatment using special nanovesicles with linoleic acid shows promise in improving hair growth and reducing irritation for hair loss.

The skin protects the body and is constantly renewed by stem cells; disruptions can lead to cancer.

Aging in hair follicle stem cells leads to hair graying, thinning, and loss.

Hair follicles evolved from oil glands, with hair aiding secretion transport.

Genes related to pigmentation, body rhythms, and behavior change during hares' seasonal coat color transition, with a common genetic mechanism in two hare species.

The skin microenvironment significantly affects hair growth and loss, offering potential treatment avenues.

Cicatricial alopecia, a permanent hair loss condition, is mainly caused by damage to specific hair follicle stem cells and abnormal immune responses, with gene regulator PPAR-y and lipid metabolism disorders playing significant roles.

Plant-derived PDRN from ginseng roots effectively heals skin and improves its barrier.

Microbial-derived polydeoxyribonucleotide is a better and more sustainable alternative to salmon-based versions for healing and immune support.