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Skin can heal wounds without hair follicle stem cells, but it takes a bit longer.

Hair growth and development are controlled by specific signaling pathways.

Drosha and Dicer are essential for hair follicle health and preventing DNA damage in skin cells.

Doxorubicin can block blood vessels from hair follicles, reducing skin tumor growth.

Most hair follicle stem cells do not protect their DNA by dividing it unevenly.

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

The Msi2 protein helps keep hair follicle stem cells inactive, controlling hair growth and regeneration.

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

GasderminA3 is important for normal hair cycle transitions by controlling Wnt signaling.

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

Alpinetin helps grow hair by turning on hair stem cells and is safe for use.

Overexpression of sPLA2-IIA in mouse skin reduces hair stem cells and increases cell differentiation through JNK/c-Jun pathway activation.

Mice with too much sPLA₂-IIA have hair loss and poor wound healing due to abnormal hair growth and stem cell depletion.

HAP stem cells can repair nerves, grow hair follicle nerves, and become heart muscle cells, making them useful for regenerative medicine.

Nestin identifies specific progenitor cells in hair follicles that can become outer root sheath cells.

A 29-year-old man had a jaw plaque diagnosed as follicular mucinosis, linked to nestin-positive hair follicle stem cells.

Nestin-expressing cells turn into a specific type of skin cell in hair follicles during development and in adults.

Bald men with male pattern baldness still have hair stem cells, but lack certain cells needed for hair growth.

Bald men with male pattern baldness still have hair stem cells, but lack certain cells needed for hair growth.

Bald men with male pattern baldness still have hair stem cells, but lack certain cells needed to grow hair.

Understanding hair growth involves complex interactions between molecules and could help treat hair disorders.

Lichen Planopilaris and Frontal Fibrosing Alopecia may help us understand hair follicle stem cell disorders and suggest new treatments.

Hair greying is caused by oxidative stress damaging hair follicles and melanocytes.

The document explains hair biology, the causes of hair loss, and reviews various hair loss treatments.

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.

The document concludes that while lab results for hair growth promotion are promising, human trials are needed and better testing methods should be developed.

Further research is needed to improve hair regeneration using stem cells and nanomaterials.

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

Bioengineering can potentially treat hair loss by regenerating hair follicles and cloning hair, but the process is complex and needs more research.

Using polyethylenimine-DNA to deliver the hTERT gene can stimulate hair growth and may be useful in treating hair loss, but there could be potential cancer risks.