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Human stem cells can help form hair follicles in mice.

Human skin cell byproducts can potentially be used to treat hair loss and promote hair growth.

Scientists found the best time to transplant human stem cells for hair growth is between days 16-18 when they have the right markers and growth potential.

Embryonic and adult stem cells are valuable for improving skin grafts and cell therapy.

Skin-derived stem cells can become various cell types, including germ cell-like and oocyte-like cells.

Hair follicle cells help maintain and support stem cells and blood cell formation.

iPSC-derived stem cells on a special membrane can help repair full-thickness skin defects.

Dental pulp stem cells are better for tissue repair, while fat tissue stem cells may be more suited for wound healing and hair growth.

Deer antler stem cell fluid helps regenerate tissue better than fat-derived stem cell fluid.

Tiny vesicles from stem cells could be a new treatment for healing wounds.

Human sweat glands have a type of stem cell that can grow well and turn into different cell types.

Increasing mir-302 turns human hair cells into stem cells by changing gene regulation and demethylation.

Scientists created stem cells that can grow hair and skin.

The meeting highlighted important advances in stem cell research and its potential for creating new medical treatments.

Human dermal stem cells can become functional skin pigment cells.

Human skin can provide stem cells for tissue repair and regeneration, but there are challenges in obtaining and growing these cells safely.

The document concludes that using stem cells to regenerate hair follicles could be a promising treatment for hair loss, but there are still challenges to overcome before it can be used clinically.

Skin development in mammals is controlled by key proteins and signals from underlying cells, involving stem cells for maintenance and repair.

Skin grafting and wound treatment have improved, but we need more research to better understand wound healing and create more effective treatments.

The study suggests that motor neurons created from stem cells of patients with spinal and bulbar muscular atrophy show signs of the disease, including changes in protein levels and cell functions.

Hair follicle stem cells might help treat traumatic brain injury.

Dermal papilla cell vesicles can boost hair growth genes in fat stem cells.

The research found a way to identify and study skin cells with stem cell traits, revealing they behave differently in culture and questioning current stemness assessment methods.

Research on epidermal stem cells has advanced significantly, showing promise for improved clinical therapies.

Stem cell therapy shows promise for treating hair loss in androgenetic alopecia.

New materials help control stem cell growth and specialization for medical applications.

Conditioned media from mesenchymal stem cells show promise for tissue repair and disease treatment, but more research is needed on their safety and effectiveness.

Improving the environment and cell interactions is key for creating human hair in the lab.

Fat-derived stem cells show promise for skin repair and reducing aging signs but need more research for consistent results.

Human Schwann cells can be quickly made from hair follicle stem cells for nerve repair.