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Macrophages are essential for successful skin growth in reconstructive surgery.

Melanocyte precursors in human fetal skin follow a specific migration pattern and some remain in the skin's deeper layers.

Hair follicle regeneration possible, more research needed.

Lizards can regrow their tails, and studying this process helps understand scar-free healing and limb regeneration.

Researchers isolated a new type of stem cell from mouse skin that can renew itself and turn into multiple cell types.

New treatments targeting skin stem cells show promise for skin repair, anti-aging, and cancer therapy.

Mice with enhanced regeneration abilities may help develop new regenerative medicine therapies.

Skin and hair can help us understand organ regeneration, especially how certain stem cells might be used to form new organs.

Scientists created a long-lasting stem cell line from human hair that can turn into different skin and hair cell types.

MicroRNAs are important for skin health and could be targets for new skin disorder treatments.

Nanoencapsulation creates adjustable cell clusters for hair growth.

Hair can regrow in large wounds through a process similar to how hair forms in embryos, and understanding this could lead to new treatments for hair loss or scarring.

Lizards can regrow their tail scales with the same structure, distribution, and gender-specific features as the original ones, and this unique ability is not seen in adult mammals.

Dying cells can help with faster healing and new hair growth by releasing a growth-promoting molecule.

Chitosan/LiCl composite scaffolds help heal deep skin wounds better.

The shape of fibrous scaffolds can improve how stem cells help heal skin.

Hyaluronic acid-based HA2 hydrogel helps heal skin wounds better with less scarring.

Runx1 controls fat-related genes important for normal and cancer cell growth, affecting skin and hair cell behavior.

Cultured dermal papilla cells can regenerate hair follicles and sustain hair growth.

Hes1 protein is important for hair growth and regeneration, and could be a potential treatment for hair loss.

Mice can regenerate ear tissue without the p53 protein.

Small molecule IM boosts hair growth by changing stem cell metabolism.

The spiny mouse can regenerate its skin without scarring, which could help us learn how to heal human skin better.

Scientists have created a method to deliver specific cells that can regenerate hair follicles, potentially offering a new treatment for hair loss.

HPV genes in mice improve ear tissue healing by speeding up skin growth and repair.

Inflammation plays a key role in activating skin stem cells for hair growth and wound healing, but more research is needed to understand how it directs cell behavior.

The study introduced a new imaging technology to track skin healing and bone marrow cell activity over time.

Flightless I protein affects hair growth, with low levels delaying it and high levels increasing hair length in rodents.

The study found that expanded skin regenerates similarly to normal skin, with 77 genes playing a role in the process.

Nanog gene boosts stem cells, helps hair growth, and may treat hair loss.