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A new hydrogel with stem cells from human umbilical cords improves skin wound healing and reduces inflammation.

Conductive hydrogels show promise for medical uses like healing wounds and tissue regeneration but need improvements in safety and stability.

Inorganic-based biomaterials can quickly stop bleeding and help wounds heal, but they may cause issues like sharp ion release and pH changes.

Hair growth environment recreated with challenges; stem cells make successful skin organoids.

The best method for urethral reconstruction is using hypoxia-preconditioned stem cells with autologous cells on a vascularized synthetic scaffold.

Bioactive molecules show promise for improving skin repair and regeneration by overcoming current challenges with further research.

The review suggests that a special cell-derived treatment shows promise for various skin conditions and hair growth but needs more research for confirmation.

Bioprinting could greatly improve health outcomes but faces challenges like material choice and ensuring long-term survival of printed tissues.

Adipose-derived stem cells show promise in treating skin conditions like vitiligo, alopecia, and nonhealing wounds.

New biofabrication technologies could lead to treatments for hair loss.

A new gel helps grow mature eggs in a lab that can be fertilized and develop further.

Mesenchymal stem cell proteins in a special gel improved healing of severe burns.

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

The review concluded that keeping the hair-growing ability of human dermal papilla cells is key for hair development and growth.

New technologies show promise for better hair regeneration and treatments.

Hair follicle stem cells help maintain skin health and could improve skin replacement therapies.

Innovative methods are reducing animal testing and improving biomedical research.

3D-cultured cells in HGC-coated environments improve hair growth and skin integration.

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

Researchers developed a 3D model of human hair follicle cells that can help understand hair growth and test new hair loss treatments.

The new method can create hair follicle-like structures but not complete hair with roots and shafts, needing more improvement.

Centella asiatica extract may help promote hair growth by blocking a specific cell signaling pathway.

The new 3D bioprinting method successfully regenerated hair follicles and shows promise for treating hair loss.

New methods to improve the healing abilities of mesenchymal stem cells for disease treatment are promising but need more research.

The conclusion is that accurately replicating the complexity of the extracellular matrix in the lab is crucial for creating realistic human tissue models.

Different levels of shear stress affect where cells move and gather in a 3D-printed model, helping to better understand cell behavior in blood vessels.

Microneedle technology has advanced for painless drug delivery and sensitive detection but faces a gap between experimental use and clinical needs.

The new method using gene-modified stem cells and a 3D printed scaffold improved skin repair in mice.

Nanoencapsulated antibiotics are more effective in treating hair follicle infections than free antibiotics.

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