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Fat cells are important for healthy skin, hair growth, and healing, and changes in these cells can affect skin conditions and aging.

Hair loss involves immune responses, inflammation, and disrupted signaling pathways.

Stem cell technologies and regenerative medicine, including platelet-rich plasma, show promise for hair restoration in treating hair loss, but more research is needed.

Hair restoration has evolved from surgery to drugs to potential gene therapy, with improved results and ongoing research driven by high demand.

Rat dermal papilla cells have unique genes crucial for hair growth.

Mutations in Plcd1 and Plcd3 together cause severe hair loss in mice.

Foxp1 helps control hair stem cell growth and response to stress during hair growth cycles.

Certain microRNAs are important for sheep hair follicle development and could help improve wool quality.

TGF-β2 helps activate hair follicle stem cells by counteracting BMP signals.

miR-31 regulates hair growth by controlling gene expression in hair follicles.

Overactivating Hedgehog signaling makes hair follicle cells in mice grow hair faster and create more follicles.

Researchers identified specific genes that are important for mouse skin cell development and healing.

3D bioprinting could improve skin repair and treat conditions like vitiligo and alopecia by precisely placing cells.

Hedgehog signaling in certain cells is crucial for hair growth during wound healing.

Dihydrotestosterone treatment on 2D and 3D-cultured skin cells slows down hair growth by affecting certain genes and could be a potential target for hair loss treatment.

Nanocarriers with plant extracts show promise for safe and effective hair growth treatment.

Substances from fat-derived stem cells can promote hair growth and counteract hormone-related hair loss by activating a key hair growth pathway.

Ezh2 controls skin development by balancing signals for dermal and epidermal growth.

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

Dlx3 is essential for hair growth and regeneration.

Layer-by-Layer self-assembly is promising for biomedical uses like tissue engineering and cell therapy, but challenges remain in material safety and process optimization.

The skin protects the body and is constantly renewed by stem cells; disruptions can lead to cancer.

The Hedgehog signaling pathway is important for skin and hair growth and can lead to cancer if it doesn't work right.

Progress has been made in skin and nerve regeneration, but more research is needed to improve methods and ensure safety.

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

A specific laser treatment can promote hair growth in mice by increasing certain protein levels.

The Bcl-2 protein is important for keeping hair follicle stem cells working and preventing hair loss.

MSC-Exos can aid organ development and offer therapeutic benefits for various conditions.

Environmental cues can change the fate and function of epithelial cells, with potential for cell therapy.

The research reveals how early embryonic mouse skin develops from simple to complex structures, identifying various cell types and their roles in this process.