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Certain microRNAs are linked to various skin diseases and could be used to diagnose and treat these conditions.

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.

Dental pulp stem cells are better for tissue repair, while fat tissue stem cells may be more suited for wound healing and hair growth.

Stem cells, especially from fat tissue and Wharton's jelly, can potentially regenerate hair follicles and treat hair loss, but more research is needed to perfect the treatment.

Bioinspired polymers are promising for advanced medical treatments and tissue repair.

Fibroblasts are crucial for tissue repair and inflammation, and understanding them can help treat fibrotic diseases.

β-catenin in the dermal papilla is crucial for normal hair growth and repair.

A new method using Y-27632 improves the growth and quality of human hair follicle stem cells for tissue engineering and therapy.

Fat cells in the skin help start healing and form important repair cells after injury.

WWOX deficiency in mice causes skin and fat tissue problems due to disrupted cell survival signals.

The scalp fat tissue of men with hair loss shows changes in gene activity that may contribute to their condition.

Gab1 protein is crucial for hair growth and stem cell renewal, and Mapk signaling helps maintain these processes.

Researchers successfully grew hair follicle stem cells from mice and humans, which could be useful for tissue engineering and regenerative medicine.

High levels of ERK activity are key for tissue regeneration in spiny mice, and activating ERK can potentially redirect scar-forming healing towards regenerative healing in mammals.

After skin is damaged, noncoding dsRNA helps prostaglandins and Wnts work together to repair tissue and promote hair growth.

Deleting MPZL3 increases skin oil production and reduces body fat.

Aging changes hair stem cells and their environment, leading to gray hair and hair thinning, but understanding these changes could help develop treatments for hair regeneration.

Thymic stromal lymphopoietin (TSLP) promotes hair growth, especially after skin injury.

Hair follicle stem cells from Arbas Cashmere goats can become fat, nerve, and liver cells.

PTEN helps control the number and health of skin stem cells by working with the protein BMAL1.

Using bioreactors, scientists can grow more skin stem cells that keep their ability to regenerate skin and hair.

Different small areas within hair follicles send specific signals that control what type of cells stem cells become.

Glycosaminoglycans help heal wounds but aren't yet ready for clinical use.

Epidermal stem cells are crucial for skin health and problems with them can cause issues like poor wound healing, cancer, and aging.

Epidermal stem cells help heal severe skin wounds and have potential for medical treatments.

Hair follicle stem cells help maintain skin health and could improve skin replacement therapies.

Fibroblasts are important in healing diabetic wounds, but high sugar levels can harm their function and slow down the healing process.

Low-dose radiation affects hair stem cell function and survival by changing their genetic material's structure.

Activating TLR3 improves the healing and immune properties of periodontal ligament stem cells.

Hydrogels combined with extracellular vesicles and 3D bioprinting improve wound healing.