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Certain cells outside the hair follicle's bulge area can quickly regenerate damaged hair follicles, potentially helping to reduce hair loss from cancer treatments.

Hair follicles repair 3D injuries using a 2D healing process.

Activating certain hair follicle cells could prevent hair loss from cancer treatments.

Brg1 is crucial for hair growth and skin repair by maintaining stem cells and promoting regeneration.

The conclusion suggests that focusing on certain cellular pathways may improve the prevention and repair of hair loss caused by radiotherapy.

Activating the Sonic hedgehog pathway can help regenerate hair follicles during wound healing in mice, potentially improving regeneration after injury.

Certain signals and genes play a key role in hair growth and regeneration, and understanding these could lead to new treatments for skin regeneration.

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

Understanding how hair follicle stem cells work can help find new ways to prevent hair loss and promote hair growth.

Tet1/2/3 enzymes affect hair follicle cell development by influencing BMP signaling.

Mouse skin glands need healthy nerves to grow properly during hair growth phases.

Chemotherapy patients don't all lose their hair due to factors like hair growth rates, age, genetics, and the type of drugs used.

N-acetylcysteine may prevent hair loss caused by chemotherapy.

miR-140-5p in certain cell vesicles helps hair growth by boosting cell proliferation.

Th22 cells are essential for Tβ15-induced hair growth in mice.

Multi-omics techniques help understand the molecular causes of androgenetic alopecia.

Using radiation to make mice's hair turn gray helps study and find ways to prevent or reverse hair graying.

Cold atmospheric plasma may speed up wound healing and control infections.

Combining platelet-rich plasma injections and gel may effectively treat morphea, improving skin elasticity and reducing pain.

Wnt-signaling is regulated differently in skin cells and immune responses during wound healing.

The article concludes that studying how skin forms is key to understanding skin diseases and improving regenerative medicine.

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.

New microneedle treatment with growth factors and a hair loss drug shows better and faster hair growth results than current treatments.

The 2015 Hair Research Congress concluded that stem cells, maraviroc, and simvastatin could potentially treat Alopecia Areata, topical minoxidil, finasteride, and steroids could treat Frontal Fibrosing Alopecia, and PTGDR2 antagonists could also treat alopecia. They also found that low-level light therapy could help with hair loss, a robotic device could assist in hair extraction, and nutrition could aid hair growth. They suggested that Alopecia Areata is an inflammatory disorder, not a single disease, indicating a need for personalized treatments.

The microenvironment, especially mechanical forces, plays a crucial role in hair growth and could lead to new treatments for hair loss.

Integrin alphavbeta6 is important for wound healing and hair growth, and blocking it may improve these processes.

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

PRGF treatment safely and effectively helps hair loss.

Wnt ligands are crucial for hair growth and repair.

Hair greying is linked to reduced ATM protein in hair cells, which protects against stress and damage.