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Radiation mainly affects keratinocyte stem cells, not melanocyte stem cells, causing hair to gray.

Aging changes sugar molecules on skin stem cells, which may affect their ability to repair skin.

The nervous system helps control stem cell behavior and immune responses, affecting tissue repair and maintenance.

Androgenetic alopecia involves immune cell disruptions, especially increased CD4+ T cells around hair follicles.

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.

Activating a protein called β-catenin in adult skin can make it behave like young skin, potentially helping with skin aging and hair loss.

Understanding hair follicle development can help improve cashmere quality.

The right cells and signals can potentially lead to scarless wound healing, with a mix of natural and external wound healing controllers possibly being the best way to achieve this.

Aging slows wound healing due to weaker cells and immune response.

Radiation therapy damages skin structure and immune function, causing inflammation and potential hair loss.

Skin stem cells interacting with their environment is crucial for maintaining and regenerating skin and hair, and understanding this can help develop new treatments for skin and hair disorders.

The conclusion suggests that focusing on certain cellular pathways may improve the prevention and repair of hair loss caused by radiotherapy.

Scientists have improved 3D models of human skin for research and medical uses, but still face challenges in perfectly replicating real skin.

Hair growth and development are controlled by specific signaling pathways.

Melanocytes are important for skin and hair color and protect the skin from UV damage.

The research suggests that a specific skin gene can be controlled by signals within and between cells and is wrongly activated in certain skin diseases.

Alk1 in specific cells is crucial for proper nerve branching and hair function.

Scarring alopecias are complex hair loss disorders that require early treatment to prevent permanent hair loss.

ECM-inspired wound dressings can help heal chronic wounds by controlling macrophage activity.

Understanding hair growth involves complex factors, and more research is needed to improve treatments for hair loss conditions.

Different types of stem cells help maintain and heal skin.

Immune cells are essential for skin regeneration using biomaterial scaffolds.

Scientists successfully edited a goat's genes to grow more and longer cashmere hair.

New treatments for hair loss from alopecia areata may include targeting immune cells, using stem cells, balancing gut bacteria, applying fatty acids, and using JAK inhibitors.

Regenerative cosmetics can improve skin and hair by reducing wrinkles, healing wounds, and promoting hair growth.

CD90 is present on specific cells in dog hair follicles.

Modified stem cells from umbilical cord blood can make hair grow faster.

Scientists are using clumps of special stem cells to improve organ repair.

Dermal fibroblasts have adjustable roles in wound healing, with specific cells promoting regeneration or scar formation.

New regenerative treatments for hair loss show promise but need more research for confirmation.