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Transplanted baby mouse skin cells grew normal hair using a new, efficient method.

Low-frequency electromagnetic fields help regenerate hair follicles using a mix of skin cells.

Adding insulin-like growth factor 1 and bone marrow-derived stem cells to a collagen-chitosan scaffold helps wounds heal faster and regrows hair follicles.

Sponges made of soy protein and β-chitin with human cells from hair or fat can speed up healing of chronic wounds.

New treatments for hair loss show promise, including plasma, stem cells, and hair-stimulating complexes, but more research is needed to fully understand them.

Exosomes show promise for tissue repair and regeneration with advantages over traditional cell therapies.

Hair and skin healing involve complex cell interactions controlled by specific molecules and pathways, and hair follicle cells can help repair skin wounds.

Exosomes could potentially enhance tissue repair and regeneration with lower rejection risk and easier production than live cell therapies.

Platelet-rich plasma can help grow more mouse hair follicles, but it doesn't work for human hair follicles yet.

Creating fully functional artificial skin for chronic wounds is still very challenging.

Artificial dermal template treatment can stimulate complete skin and hair follicle regrowth.

Wound healing insights can improve regenerative medicine.

Hair follicles are essential for skin health, aiding in hair growth, wound healing, and immune function.

Baby teeth stem cells can help grow hair in mice.

Proteins like aPKC and PDGF-AA, substances like adenosine and ATP, and adipose-derived stem cells all play important roles in hair growth and health, and could potentially be used to treat hair loss and skin conditions.

Mesenchymal stem cells show potential for skin healing and anti-aging, but more research is needed for safe use, especially regarding stem cells from induced pluripotent sources.

A special stem cell fluid can speed up wound healing and hair growth in mice.

Both cell and non-cell parts are important for rat whisker follicle regrowth.

Conditioned medium from keratinocytes can improve hair growth potential in cultured dermal papilla cells.

Advanced therapies like gene, cell, and tissue engineering show promise for hair regrowth in alopecia, but their safety and effectiveness need more verification.

The review highlights the importance of stem cells in hair health and suggests new treatment strategies for hair loss conditions.

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

A special hydrogel helps heal skin without scars and regrows hair.

Scientists created 3D hair-like structures that could help study hair growth and test treatments.

The gelatin/β-TCP scaffold with nanoparticles improves wound healing and skin regeneration.

The SA-MS hydrogel is a promising material for improving wound healing and skin regeneration in diseases like diabetes and skin cancer.

The document concludes that more research is needed to understand airway repair and to improve tissue engineering for lung treatments.

The document concludes that more research is needed on making and understanding biomaterial scaffolds for wound healing.

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

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