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T-cell reconstitution after thymus transplantation can cause hair whitening and loss.

CRISPR-based tools improve understanding and treatment of skin development and conditions.

SOX9 helps determine stem cell roles by interacting with DNA and proteins that control gene activity.

Bionanomaterials from natural sources show promise in improving wound healing and tissue regeneration.

A new engineered treatment shows promise in curing heart fibrosis.

Tilapia skin matrix effectively aids skin wound healing and is a promising option for clinical use.

The document concludes that transplantology has evolved with improved techniques and materials, making transplants more successful and expanding the types of transplants possible.

Long-term skin biopsy cultures can produce many fibroblasts that remain functional and can be reprogrammed.

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

The document concludes that better targeted treatments are needed for wound healing, and single-cell technologies may improve cell-based therapies.

Multiphoton microscopy is a promising tool for detailed skin imaging and could improve patient care if its challenges are addressed.

Hair transplant surgery can rebuild muscle and nerve connections, allowing transplanted hairs to stand up like normal hairs.

Keratin 15 is not a reliable sole marker for identifying epidermal stem cells because it's found in various cell types.

Proper mTOR signaling is crucial for healthy skin and preventing skin diseases.

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

The study found that mouse sweat glands develop before birth, mature after birth, and have specific keratin patterns.

A specific DNA region controls skin cell gene expression by working with certain proteins.

Researchers created a 3D hydrogel that mimics human hair follicles, which may help with hair loss treatments.

Stem cell and plant exosomes may help heal and regenerate skin.

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

MSC-derived exosomes can help treat COVID-19, hair loss, skin aging, and arthritis.

A bioink with 15% gelatin and 150 mM calcium chloride works best for 3D printing skin models.

New research suggests that skin cell renewal may not require a special type of cell previously thought to be essential.

Stem cells have great potential for improving wound healing, but more research is needed to find the best types and ways to use them.

Functionalized bacterial cellulose can improve medical tissue engineering.

A protein-based hydrogel helps heal diabetic wounds and repair nerves.

Peptide hydrogels heal burn wounds faster and better than standard dressings.

Hydrogels are crucial for 3D bioprinting in tissue engineering.

Mesenchymal stem cells and their vesicles may effectively treat skin diseases, but more research is needed.

Engineered cytokines show promise for improving tissue healing and safety in regenerative medicine.