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The document provides a method to classify human hair growth stages using a model with human scalp on mice, aiming to standardize hair research.

Stem cell niches are crucial for regulating stem cell renewal and differentiation, and understanding them can help in developing regenerative therapies.

Researchers created human hair follicles using a new method that could help treat hair loss.

Regenerated fully functional hair follicles using stem cells, with potential for hair regrowth therapy.

Different types of skin cells have unique genetic markers that affect how likely they are to spread cancer.

Wnt ligands are crucial for hair growth and repair.

Latanoprost can make eyelashes longer, thicker, and darker.

The document concludes that more research is needed to better understand and treat primary cicatricial alopecias, and suggests a possible reclassification based on molecular pathways.

Some viruses can cause cancer by changing cell processes and avoiding the immune system; vaccines and targeted treatments help reduce these cancers.

Low oxygen conditions increase the hair-growing effects of substances from fat-derived stem cells by boosting growth factor release.

Mice hair growth patterns get more complex with age and can change with events like pregnancy or injury.

Stress can stop hair growth in mice, and treatments can reverse this effect.

Activating the Wnt/β-catenin pathway could lead to new hair loss treatments.

Mice without the Sept4/ARTS gene heal wounds better due to more stem cells that don't die easily.

The nude gene causes skin cell overgrowth and improper development, leading to hair and urinary issues.

Brain-Derived Neurotrophic Factor (BDNF) slows down hair growth and promotes hair follicle regression.

RANK-RANKL signaling is essential for hair growth and skin health.

Brain hormones significantly affect hair color and could potentially be used to prevent or reverse grey hair.

The control system for hair growth cycles is not well understood and needs more research.

Androgen receptor activity blocks Wnt/β-catenin signaling, affecting hair growth and skin cell balance.

The conclusion is that we need more effective hair loss treatments than the current ones, and these could include new drugs, gene and stem cell therapy, hormones, and scalp cooling, but they all need thorough safety testing.

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

MicroRNAs are important for skin health and could be targets for new skin disorder treatments.

Signaling pathways are crucial for hair growth in goats.

Activating NRF2 might help treat hair disorders by improving antioxidant defenses.

Hair follicles on the scalp interact with and respond to the nervous system, influencing their own behavior and growth.

Different types of dog hair loss are linked to problems starting the hair growth phase and early hair cycle ending.

New compounds were found to help increase hair growth and decrease hair loss.

South American camelids should be sheared early, fleece type affects fiber quality, and the S/P follicle ratio doesn't distinguish between Bolivian llama genotypes.

Activating β-catenin in certain skin cells speeds up hair growth in mice.