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Genetically-altered adult stem cells can help in wound healing and are becoming crucial in regenerative medicine and drug design.

BMP2 needs periosteal tissue to help regenerate mouse middle finger bones within a specific time.

Understanding hair biology is key to developing better treatments for hair and scalp issues.

Skin lymphatic vessels are essential for hair growth.

The document concludes that careful surgical methods and choosing the right materials are key for successful scalp, skull, and frontal sinus reconstruction.

Keratin hydrogels from human hair show promise for tissue engineering and regenerative medicine.

Lignans and neolignans from plants may help protect against various health issues, including cancer and heart disease.

Certain immune cells in the skin release a protein that stops hair growth by keeping hair stem cells inactive.

Laminin-511 may help promote hair growth, while laminin-332 does not affect hair loss.

Hair follicle development is controlled by interactions between skin tissues and specific molecular signals.

The lentiviral array can monitor and predict gene activity during stem cell differentiation.

Lotion with fucoidan from brown seaweed improved skin and reduced allergy symptoms in mice with dermatitis.

Electrospun nanofibers show promise for enhancing blood vessel growth in tissue engineering but need further research to improve their effectiveness.

Advanced hydrogel systems with therapeutic agents could greatly improve acute and chronic wound treatment.

Biomimetic scaffolds are better than traditional methods for growing cells and could help regenerate various tissues.

Signals from skin cells controlled by Rac proteins help turn certain precursor cells into white fat cells.

KAP-depleted hair causes less immune response and is more biocompatible for implants.

Melatonin helps goat hair stem cells grow and maintain their ability to become different cell types.

Hydrogel composites have great potential in regenerative medicine, tissue engineering, and drug delivery.

The study created a tool that mimics natural cell signals, which increased cell growth and could help with hair regeneration research.

Topical drugs and near-infrared light therapy show potential for treating alopecia.

Ultrasound can help deliver genes to cells to stimulate tissue regeneration and enhance hair growth, but more research is needed to perfect the method.

Injectable hydrogels are becoming increasingly useful in medicine for drug delivery and tissue repair.

FGF12 is important for hair growth and could be targeted for hair loss treatment.

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

Different body areas in mice produce different hair types due to interactions between skin layers.

Different hair protein amounts change the strength of keratin/chitosan gels, useful for making predictable tissue engineering materials.

Overexpressing follistatin in mice delays wound healing and reduces scar size.

FLRG and follistatin have different roles in wound healing.

Growth factors are crucial for hair development and could help treat hair diseases.