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Hair growth is cyclic and influenced mainly by local factors.

Changing how mesenchymal stromal cells are grown can improve their healing abilities.

Stem cell-derived conditioned medium shows promise for treating various medical conditions but requires standardized production and further validation.

New nanofiber technology improves wound healing by supporting cell growth and delivering treatments directly to the wound.

Ectodin integrates BMP, SHH, and FGF signals in developing ectodermal organs.

Fat cells help recruit healing cells and build skin structure during wound healing.

Msx and Dlx genes are crucial for development, controlling cell behaviors like growth and differentiation through their roles as gene regulators.

Biomaterials with MSC-derived substances could improve tissue repair and have advantages over direct cell therapy.

Mice lacking the PPARγ gene in their fat cells had almost no fat tissue, severe metabolic problems, and abnormal development of other fat-related tissues.

Epigenetic changes control how adult stem cells work and can lead to diseases like cancer if they go wrong.

Regenerated fully functional hair follicles using stem cells, with potential for hair regrowth therapy.

Stem cell niches support, regulate, and coordinate stem cell functions.

Tributyltin exposure causes sex changes, sterilization, and decline in the snail Ocinebrina aciculata, risking its extinction.

Stress can stop hair growth in mice, and treatments can reverse this effect.

Stem cell plasticity is crucial for wound healing but can also contribute to cancer development.

TRP channels in the skin are important for sensation and health, and targeting them could help treat skin disorders.

Understanding how cells die in the skin is important for treating skin diseases and preventing hair loss.

Asia has made significant progress in tissue engineering and regenerative medicine, but wider clinical use requires more development.

Fibroblast growth factor receptor signaling controls cell development and repair, and its malfunction can cause disorders and cancer, but it also offers potential for targeted therapies.

Stress increases nerve fibers and immune cell activity in mouse skin, possibly worsening skin conditions.

Lignans and neolignans from plants may help protect against various health issues, including cancer and heart disease.

Blocking the Wnt pathway could lead to new treatments for cancer and tissue repair but requires careful development to avoid side effects.

A mother's PPARγ is crucial for preventing harmful milk that can cause inflammation and growth problems in babies.

Mammals might fail to regenerate not because they lack the right cells, but because of how cells respond to their surroundings, and changing this environment could enhance regeneration.

New methods for skin and nerve regeneration can improve healing and feeling after burns.

Smart biomaterials that guide tissue repair are key for future medical treatments.

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

Fetal skin cells from a cell bank heal wounds faster and with less scarring than adult cells.

Electrospun nanofibers show promise for enhancing blood vessel growth in tissue engineering but need further research to improve their effectiveness.

Advanced hydrogel systems with therapeutic agents could greatly improve acute and chronic wound treatment.