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The document concludes that hair biology is complex and there are still unanswered questions about hair loss and follicle changes.

Runx genes are important for stem cell regulation and their roles in aging and disease need more research.

Fractional lasers could help hair regrowth in androgenic alopecia, but more research is needed to confirm their effectiveness and safety.

Melanocytes are important for skin and hair color and protect the skin from UV damage.

Oriental melon leaf extract may help hair grow and keep it in the growing phase longer.

Dermal macrophages might help regrow hair.

NF-κB signaling is crucial in many diseases and can be targeted for new treatments.

Consumers prefer general hair care products over those specifically for hair loss.

Alk1 in specific cells is crucial for proper nerve branching and hair function.

Hair follicle stem cells and mitochondria are key for hair growth, and targeting their activity could lead to new hair loss treatments.

Melatonin affects certain genes and pathways involved in cashmere goat hair growth.

Melatonin can increase cashmere yield by altering gene expression and restarting the growth cycle early.

Hair regeneration needs dynamic cell behavior and mesenchyme presence for stem cell activation.

The research found that different types of fibroblasts are involved in wound healing and that some blood cells can turn into fat cells during this process.

Chemotherapy causes hair loss by damaging hair follicles and stem cells, with more research needed for prevention and treatment.

Latanoprost can make eyelashes longer, thicker, and darker.

Certain inhibitors slow down plant growth by causing early cell specialization without changing the cell development pattern.

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.

Stem cell self-renewal is complex and needs more research for full understanding.

Cathepsin L is essential for normal hair growth and development.

Different types of stem cells and their environments are key to skin repair and maintenance.

Hair grows faster in the morning and is more vulnerable to damage from radiation due to the internal clock in hair follicle cells.

Ruby laser pulses best destroy hair follicles during the growth phase and effectiveness varies with laser intensity; melanin is key for targeting, and timing treatments can improve results.

Understanding the mouse hair cycle is crucial for cancer research.

Using human fat tissue derived stem cells in micrografts can safely and effectively increase hair density in people with hair loss.

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

The conclusion is that hair growth can be improved by activating hair cycles, changing the surrounding environment, healing wounds to create new hair follicles, and using stem cell technology.

Cancer can hijack the body's cell repair system to promote tumor growth, and targeting this process may improve cancer treatments.

Fat from the body can help improve hair growth and scars when used in skin treatments.

Two-photon microscopy helps observe hair follicle stem cell behaviors in mice.