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Hair loss is mainly caused by hormones, autoimmune issues, and chemotherapy, and needs more research for treatments.

Skin stem cells are maintained by signals from nearby cells and vary in their ability to renew and mature.

Resveratrol activates the Nrf2 pathway in human skin, significantly increasing the production and distribution of the antioxidant glutathione.

Scientists created hair-growing skin models from stem cells, which could help treat hair loss and skin diseases.

Scientists found a new type of skin cell that could help with skin repair and these cells work better with a certain protein.

Injected cells show potential for hair growth.

The gene Msx2 is crucial for hair follicle regeneration during wound healing.

DNMT3A is crucial for healthy skin and hair growth.

Human placenta hydrogel helps restore cells needed for hair growth.

Human dermal stem cells can become functional skin pigment cells.

Platelet-Rich Plasma (PRP) increases the number of new hair follicles and speeds up hair formation.

The human scalp hair bulb contains different types of melanocytes with varying abilities to produce melanin.

Stem cells are crucial for skin repair and new treatments for chronic wounds.

Adipose-derived stem cells show promise in treating skin conditions like vitiligo, alopecia, and nonhealing wounds.

Stabilizing HIF1A in hair follicles increases glycolysis, which may help reduce oxidative stress and support hair growth.

The document concluded that stem cells are crucial for skin repair, regeneration, and may help in developing advanced skin substitutes.

Arrector pili muscle regulates hair follicle stem cells, DNA methylation needed for hair cycling, and Wnt/B-catenin signaling starts hair growth.

Skin organoids are a promising new model for studying human skin development and testing treatments.

miR-29 is a key factor that accelerates aging.

Activating Wnt in skin cells controls the number of hair follicles by directing cell movement and fate.

Researchers discovered potential origins and new treatments for skin cancer, including biomarkers for melanoma and therapies that reduce tumor growth.

Using gelatin sponges for deep skin wounds helps bone marrow cells repair tissue without scarring.

Macrophages are vital for skin healing, hair growth, salt balance, and cancer defense.

Nanoparticles show promise for better wound healing, but more research is needed to ensure safety and effectiveness.

Fibromodulin treatment helps reduce scarring and improves wound healing by making it more like fetal healing.

The new patch made of cell matrix and a polymer improves wound healing and supports blood vessel growth.

The new SIS-PEG sponge is a promising material for skin regeneration and hair growth.

The CUBIC protocol allows detailed 3D visualization of proteins in mouse skin biopsies.

Human foreskin does not show aging or reduced cell growth after radiation, and H2A.J is not a good marker for radiation-induced aging.

3D bioprinting is useful for making tissues, testing drugs, and delivering drugs, but needs better materials, resolution, and scalability.