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Hair keratins evolved from ancient proteins, diversifying through gene changes, crucial for forming claws and later hair in mammals.

New hair follicles could be created to treat hair loss.

3D bioprinting in plastic surgery could lead to personalized grafts and fewer complications.

Hair lipids do not protect against humidity.

Baby teeth stem cells can help grow hair in mice.

Current methods can't fully recreate skin and its features, and more research is needed for clinical use.

Smaller curcumin nanocrystals penetrate skin and hair follicles better than larger ones.

Chitosan-decorated finasteride nanosystems improve skin retention and could be a better treatment for hair loss.

Chitosan hydrogels are promising for repairing blood vessels but need improvements in strength and compatibility.

Piezoelectric Nanogenerators are promising for non-invasive health monitoring but need efficiency and durability improvements.

Tiny particles called extracellular vesicles show promise for skin improvement and anti-aging in facial care but face challenges like low production and lack of research.

Certain genes and pathways are linked to the production of finer and denser wool in Hetian sheep.

Freeze-dried dexamethasone nanoparticles in a hydrogel are stable and effective for treating alopecia areata.

The new wound dressing promotes cell growth and healing, absorbs wound fluids well, and is biocompatible.

The gel with icariin speeds up wound healing, reduces scarring, and helps hair growth by controlling BMP4 signaling. It also reduces inflammation and improves wound quality in mice, adapts to different wound shapes, and gradually releases icariin to aid healing. It also prevents too much collagen and myofibroblast formation during skin healing.

Zinc pyrithione dissolves quickly on the skin and in hair follicles, especially in smaller particles.

Elephant tail-hair can show past stress levels, matching times when stressful events happened.

Regenerative cellular therapies show promise for treating non-scarring hair loss but need more research.

New synthetic polymers help improve skin wound healing and can be enhanced by adding natural materials and medicines.

Stuff from umbilical cord stem cells helps skin heal and look younger.

The substances improved hair regrowth and protected hair cells in humans and mice.

Solidified SEDDS improve drug stability and bioavailability better than liquid SEDDS.

The new system helps detect and track early female hair loss better.

Nanofiber scaffolds help wounds heal by delivering drugs directly to the injury site.

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

Microemulsions could improve skin drug delivery but face challenges like complex creation and potential toxicity.

Tiny fat-derived particles can help repair soft tissues by changing immune cell types.

The 3D printed scaffold with SB216763 and copper helps heal wounds and regrow skin and hair.

Finasteride-loaded nanogels are effective, safe, and improve drug absorption through the skin.

3D imaging of skin biopsies offers better accuracy but is time-consuming and can't clear melanin.